FCP600-48 AC-DC Front End Data Sheet 48V Output, 600 Watts · OCT 30, 2006 revised to NOV 10, 2006...

OCT 30, 2006 revised to NOV 10, 2006 of 6 www.power-one.com

FCP600-48 AC-DC Front End Data Sheet48V Output, 600 Watts

Applications • Telecommunications equipment

Advance Product Release

Features • RoHS lead-free solder and lead-solder-exempted

products are available • Wide input voltage range 85-264 VAC • Two outputs (one high current output) • Low conducted and radiated EMI

(EN 55022 class B) • UL recognized to UL 60950/CSA 22.2 No. 60950-00,

and TUV approved to EN 60950-1 • High density design

4” x 1.65” x 8.5” cassette • Highly-efficient topology • 100 kHz I2C interface • Overtemperature, output overvoltage, and output

overcurrent protection • Supervisory signaling • Included ORing diode for true redundant operation

Description The FCP600-48 is a highly-efficient ac-dc power supply with one high current output and an auxiliary standby output, which can be used in a wide range of applications. Passive current share along with internal ORing diodes allow this unit to be also used in redundant, hot-swap applications. The FCP600-48 meets international safety standards and displays the CE Mark for the low Voltage Directive.

Model Selection Output 1 Standby Output Model Input Voltage

VAC Vo nom VDC

Io max ADC

Vo nom VDC

Io max ADC

Rated PowerW

FCP600-48 85-264 48 13 3.35 2.5 632

Ordering Information

Options Suffixes to Add to Part Number RoHS lead solder exemption No RoHS suffix character required. RoHS compliant for all 6 substances Add "G" as the last character of the part number.

Courtesy of Steven Engineering, Inc.-230 Ryan Way, South San Francisco, CA 94080-6370-Main Office: (650) 588-9200-Outside Local Area: (800) 258-9200-www.stevenengineering.com



Absolute Maximum Ratings Stresses in excess of the absolute maximum ratings may cause performance degradation, adversely effect long-term reliability, and cause permanent damage to the converter.

Parameter Conditions/Description Min Max Units Input Voltage Continuous

Transient, 60 ms 264

300 VAC VAC

Operating Temperature Ambient Vi min-Vi max, Io nom, cooling by internal fan

0 55 °C

Storage Temperature Non-operational -40 85 °C

Environmental, Mechanical, & Reliability Specifications All specifications apply over specified input voltage, output load and temperature range, unless otherwise noted.

Parameter Conditions/Description Min Nom Max Units Operating Humidity Relative humidity, non-condensing 10 90 % Storage Humidity Relative humidity, non-condensing 5 95 % Shock IEC/EN 60068-2-27, 11 ms 30 gn Sinusoidal Vibration IEC/EN 60068-2-6

2-8 Hz 8-200 Hz

200-500 Hz

7.5 2 4

mil gn gn

MTBF MIL-HDBK-217F Notice 2, GB, 25 °C TBD kh

Isolation Specifications The electric strength test is performed in the factory as routine test in accordance with EN 550116, IEC/EN 60950, and UL 1950 and should not be repeated in the field. Power-One will not honor any warranty claims resulting from electric strength field tests.

Parameter Conditions/Description Min Nom Max Units Insulation Safety Rating Input/Case

Input/Output Output/Case

Basic Reinforced Functional

Electric Strength Test Voltage Input/Case Input/Output Output/Case

2.121 3.6 0.5

kVDCkVDC kVDC




EMC Specifications All specifications apply over specified input voltage, output load and temperature range, unless otherwise noted.

Parameter Description Criterion Electrostatic Discharge IEC/EN 61000-4-2, level 4 (contact/air) 8/15 kV, criterion B Electromagnetic Field IEC/EN 61000-4-3, level 3 10 V/m, criterion A Electr. Fast Transients / Burst IEC/EN 61000-4-4, level 3 (direct/capacitive) 2/1 kV, criterion B Surge IEC/EN 61000-4-5, level 3 (L/L, L/C) 1/2 kV, criterion B Voltage Dips and Interruptions IEC/EN 61000-4-11 Criterion B RF Conducted Immunity IEC/EN 61000-4-6 10 VAC, AM 80%, 1 kHz,

criterion A Emissions Radiated/Conducted CISPR 22/EN 55022/EN 61204 Class B Harmonics IEC/EN 61000-3-2 Class B Voltage Fluctuation and Flicker IEC/EN 61000-3-3 Pass

Input Specifications All specifications apply over specified input voltage, output load and temperature range, unless otherwise noted.

Parameter Conditions/Description Min Nom Max Units Input Voltage 85 115/230 264 VAC Turn-On Input Voltage Ramping up 70 - 85 VAC Turn-Off Input Voltage Ramping down 70 - 85 VAC Input Frequency 47 50/60 63 Hz Inrush Current Limitation 115/230 VAC 20 A Power Factor Vi nom, Io nom 0.96 Efficiency Vi = 230 VAC, Io nom 88 %

Output Specifications All specifications apply over specified input voltage, output load and temperature range unless otherwise noted.

Parameter Conditions/Description Min Nom Max Units Output Voltage Setpoint Accuracy Vi = 230 VAC, Io1 @ 6.5 ADC, TC = 25 °C -0.5 0.5. % Vo nom

Output Current V1 Standby Output

0 0

13 2.5

14.3 2.75

ADC ADC

Static Line Regulation V1 Vi min-Vi max, Vi nom, 0-100% Io nom -0.5 0.5 % Vo nom

Static Load Regulation V1 (Droop Characteristic)

Vi min-Vi max, Vi nom, 0-100% Io nom -250 mV/A

Hold-Up Time Starting at Vi = 230 VAC, Po nom 20 ms Dynamic Load Regulation Load change = ±33%, dIo/dt = 2A/µs

voltage deviation recovery time

-2

2

400

% Vo nom

µs Start-Up Time Vi nom, Io nom 1 s Output Voltage Ripple and Noise Vi nom, Io nom, 20 MHz bandwidth 120 mVpp




Protection All specifications apply over specified input voltage, output load and temperature range, unless otherwise noted.

Parameter Conditions/Description Min Nom Max Units Input Fuse Not user accessible 12.5 AT Input Transient Protection With varistor Output No-load and short circuit proof

short circuit proof overload (latch style)

110

130

% Io nom% Io nom% Io nom

Overvoltage Protection Latch style 110 115 % Vo nom

Overtemperature Protection Automatic power shutdown at TC = TBD

Control All specifications apply over specified input voltage, output load and temperature range, unless otherwise noted.

Parameter Conditions/Description I2C Digital Bus Reports information and monitors alarm functions PS Seated Signal Contact closure to GND PS Remote Shutdown TTL compatible signal, inhibited at High or TTL “1” AC fail pre-warning (I2C & OC)* Supervisory AC input voltage;

Pre-warning time >6 ms DC fail (I2C & OC)* Supervisory under- and overvoltage pre-ORing diode of V1 Temperature Warning (I2C & OC)*

Indicates if unit is operating normally or in overtemperature, Pre-warning time >10 ms

Fan OK (I2C & OC)* Indicates if fan is operating or has failed Current Share Droop load characteristic for V1 Status Indication LEDs: DC OK (green), AC OK (green)

* Signal providing by I2C interface (I2C) or by open collector (OC)

Features All specifications apply over specified input voltage, output load and temperature range, unless otherwise noted.

Parameter Conditions/Description Fan speed control 2 fan speed levels depending on internal heat sink temperature

Fan speed level and temperature information available on I2C digital bus µC supply voltage in-/output (Pin 10)

If unit is operating: 5 to 7V is provided at pin 10. If unit is NOT operating, pin 10 is input from a parallel connected unit for µC supply.




Characteristic Curves:

86

122

158

194

230

266 -5

5582838485868788899091

Eta [%]

Vi [V]

Temp [°C]

Figure 1. Efficiency vs. Input Voltage and Ambient Temperature, Io = Io nom

NUCLEAR AND MEDICAL APPLICATIONS - Power-One products are not designed, intended for use in, or authorized for use as critical components in life support systems, equipment used in hazardous environments, or nuclear control systems without the express written consent of the respective divisional president of Power-One, Inc.

TECHNICAL REVISIONS - The appearance of products, including safety agency certifications pictured on labels, may change depending on the date manufactured. Specifications are subject to change without notice.




Mechanical Data Mechanical Data (H, W, D) 4” (101.6mm) x 1.65” (41.9mm) x 8.5” (215.9mm)

Output Connector Descriptions

Rear View Connector: Molex (15-06-0241)

Output Connector Description

Pin Location

Reference Name

48V Output 4,5,6,16,17,18 Vo1 48V Output RTN 1,2,3,13,14,15 Vo1 RTN AC-fail, DC-fail, Temp.-fail

9 PF

Power Supply Present Signal

23 PSPRES

Serial Data Line 11 SDA Serial Clock Line 12 SCL Address Input Line A0 21 A0 5 to 7V 10 µC supply voltage bus FAN FAIL 24 FF PS Enable 22 PSEN 3.35V Standby RTN 7 Vo2 RTN / Logic

Ground / 5 to 7V RTN 3.35V Standby 19 Vo2


BCD20012-G Rev AA Ver 1.1 Page 1 of 8 www.power-one.com

FND300-1012G Front-End Data SheetDC Input, 12V Output, 300-Watts

Description The FND300-1012G is a highly-efficient bus converter with one high current output, which can be used in a wide range of applications. Passive current share along with internal ORing diodes allow this unit to be also used in redundant, hot-swap applications.

The FND300 meets international safety standards and displays the CE Mark for the low Voltage Directive.

Model Selection

Model Nominal Output Voltage (VDC)

Input Current

Max (ADC)

Adjustment

Range (VDC)

Output Rated Current I rated

(ADC)

Output Ripple/Noise,

mV p-p

Typical

Efficiency @ I rated %

FND300-1012G 12 10 N/A 25 <120 >80


Features • RoHS compliant for all six substances • 40.5 to 72 VDC Input Range • 12 V output • 2000 VAC I/O electric strength test • Highly-efficient topology • High-density design • 4" x 1.65" x 8.5" cassette • I2C interface • Supervisory signaling • Overtemperature, output overvoltage, and output

overcurrent protection • ORing diode included for true redundant operation • Safety approvals: UL60950-1/ CSA 60950-1, & TUV

EN60950-1




Input Specifications Parameter Conditions/Description Min. Nom. Max. Units

Input Voltage With full output power 40.5 48/60 72 VDC Inrush current

limitation 48 / 60 VDC <12 / 15 A

Efficiency Vi nom, Io nom >80 % Output Specifications

Parameter Conditions/Description Min. Nom. Max. Units Nominal output current V1

Vi min to Vi max 25 A

Output voltage setting V1

Vi nom, 12.5 A, Tc = 25 °C 12.0 VDC

Static Line Regulation V1

Vi min to Vi max, Vi nom, 5 to 100% Io nom

±0.5 %

Static Load Regulation V1* * (droop characteristic)

Vi min to Vi max, Vi nom, 5 to 100% Io nom

±5 %

Minimum load No minimum load requirements Hold-Up time At full load, starting at

Vi = 60 VDC >8 ms

Dynamic load regulation Settling time

V1: ΔIo = 8A, dIo/dt = 2A/µs

±2 400

%Vout

µs Start-up time Vi nom, Io nom <1 s Output voltage ripple and noise

Vi nom, Io nom, 20 MHz BW <120 mVp-p




Interface Signals and Internal Protection1

Parameter Conditions/Description Min. Nom. Max. Units Overvoltage Protection

Latch-style overvoltage protection. 14.5 V

Overcurrent Protection

(Latch-style) 110 to 120% Io nom

Overtemperature Self-recovery; shut down at Tc = 95 °C

Input fuses 15 AF, Not user-accessible Input transient protection

VDR, reverse polarity protection

I2C Digital Bus Reports information and monitors alarm

functions

PS seated signal Contact closure to GND PS Remote Shut Down

TTL-compatible signal, inhibited at High or TTL "1"

Power Fail Indicates output voltage is out of regulation

Fan Fail Indicates low fan speed Current share Droop load characteristic Status indication LEDs: Input OK (green/red), Output OK

(green/red)




Environmental, Mechanical Specifications & Reliability

Parameter Conditions/Description Min Nom Max Units Operating Temperature Vi min to Vi max, Io nom,

cooling by internal fan 0 55 °C

Storage Temperature Ambient -40 85 °C Operating Humidity Relative Humidity, Non-cond. 10 90 % Storage Humidity Relative Humidity, Non-cond. 5 95 %

Shock IEC/EN 60068-2-27, 11 ms 30 g Sinusoidal Vibration IEC/EN 60068-2-6

2 to 8 Hz 8 to 200 Hz

200 to 500 Hz

7.5 2 4

mm gn gn

Weight 1 kg Dimensions (Overall) 8.5 L

(215.9) 4.0 W

(101.6) 1.65 H (41.9)

in (mm)

MTBF MIL-HDBK-217F Notice 2, GB, 25 °C

150'000 (calculated)

h

Safety Regulatory Compliance & EMC

Safety Agency or Parameter Standard Approved To: Marking or Related Test Value

UL/CSA UL60950-1 / CSA 60950-1 TUV product service TUV EN60950-1 Electric strength test voltage Class I, I/case (basic insulation) 1.41 kVDC Electric strength test voltage Class I, I/O (reinforced insulation) 2.82 kVDC Electrostatic discharge IEC/EN 61000-4-2, level 4 (contact/air) 8/15 kV, criterion B Electromagnetic field IEC/EN 61000-4-3, level 3 10 V/m, criterion A

Electr. fast transients/burst IEC/EN 61000-4-4, level 4 (direct capacitive) 4/2 kV, criterion B

Surge IEC/EN 61000-4-5, level 2 (L/L, L/C) 0.5/1 kV, criterion B

Electromagnetic emissions CISPR 22/EN 55022/EN61204 conducted/radiated Class B




Output Connector Pin Allocation

Connector: Molex (15-06-0241)

Pin Signal Name Description

1-3, 13-15 V1 RTN V1 Output Return 4-6, 16-18 V1 V1 Output

7 - Not Used 8 - Not Used 9 PF Power Fail

10 I2C I2C Voltage Input/Output 11 SDA Serial Data Line 12 SCL Serial Clock Line 19 - Not Used 20 - Not Used 21 LSB Address Input Line 22 RSD Power Supply Remote Shut Down 23 PS_PRSNT_L Power Supply Present signal 24 Fan Fail Fan Fail signal

Connector Information Power Supply: Output - 24-Pin Molex connector 15-06-0241 with pre-plated tin over copper Molex terminals 39-00-0038 Mating Connections: Output - 24-Pin Molex connector 15-06-0245 with pre-plated tin over copper Molex terminals 39-00-0040 Airflow Direction

AIRF

LOW




Characteristic Curves

0,2

0,25

0,3

0,35

0,4

0,45

0,5

0,55

0,6

0,65

0,7

0,75

0,8

0,85

0,9

0 5 10 15 20 25 30Io [A]

Eta

[-]

Vin=40VDC

Vin=60VDC

Vin=75VDC

Figure 1. Efficiency vs. Output Load

Figure 2. Efficiency vs. Input Voltage and Ambient Temperature, Io=Ionom




Mechanical Drawings (Drawing dimensions are shown in mm) Overall Dimensions: 8.5 (L) x 4.0 (W) x 1.65 (H) inches; (215.9 x 101.6 x 41.9 mm) Weight: 1 kg

FRONT VIEW

REAR VIEW




TOP VIEW

SIDE VIEW




MCD10060 Rev. 1.2 Page 1 of 11 www.power-one.com

FND850-12RG Front-End Preliminary Data SheetDC Input, 12V Output, 850 Watts

Applications • Telecom, datacom, and distributed power

systems

Features • RoHS compliant for all six substances • Universal input voltage range (36-75 VDC) • High power density, 15.15 Watts/cubic inch • 1U or 2U height configurations • Active current share with ORing FETs • I2C interface status and control • External standby voltage of 5 VDC @ 2 A • Overtemperature, overload, and overvoltage

protection • Status LEDs: INPUT OK, DC OK,

Overtemperature • Airflow direction from rear-to-front

Description

The FND850-12RG DC-DC front-end provides a 12 VDC output for telecom, datacom, and other distributed power applications. The FND850-12RG small 1U by 2U size allows for configurations of either height in hot-swap redundant systems while its internal fan and cooling design permits wide use with reliable operation.

Status is provided with front panel LEDs, logic signals, and via the I2C management interface bus. In addition, the I2C bus can enable the power supply, control fan speed, and adjust the output voltage from 7 to 12 VDC. This powerful feature allows the same power supply to be used in various applications.

In addition, the FND850-12RG is designed with airflow from the rear of the power supply to the front. This airflow direction supports those critical applications where space limitations and/or higher ambient temperatures near the rear of the racking system, prohibit the discharge of higher temperature airflow from regular front-to-rear cooled power supplies.

The FND850-12RG meets international safety requirements and is CE marked to the Low Voltage Directive (LVD).

Model Selection

Model Input

Voltage (VDC)

Nominal Output Voltage

(VDC)

Adjustment Range (VDC)

Maximum Output Current

(Amps)

Line Regulation

(%)

Load Regulation

(%) 1

Ripple & Noise

pk-pk % 2

FND850-12RG 36 to 44 44 to 75 36 to 75

12 12

5 (Standby)

7 to 12 7 to 12

N/A

58 71 2

±0.17 ±0.17

±5

±0.8 ±0.8 ±5

1 1 1

1. % of Vnom 2 Maximum peak-to-peak noise is expressed as a percentage of output voltage; 20 MHz bandwidth.


Input Voltage DC input voltage 36 75 VDC

Hold-up Time After DC input; removing at full power 4 5 ms

Input Current At 100% load (main and standby output) , Vin = 36 VDC 23.5 A rms

Internally limited. Vin = 36 VDC @ 25 ºC 35 Inrush Surge Current

Internally limited. Vin = 75 VDC @ 25 °C 25 A pk




Output Specifications

Parameter Conditions/Description Min. Nom. Max. Units Full rated load at Vin = 36 to 75 VDC, Vout = 12V

Efficiency

Full rated load at Vin = 36 to 75 VDC, Vout = 7V

84

80

88

82

%

Minimum Load Minimum loading required to maintain regulation. 0 A

Main output: Vin = 36 to 44 VDC Output Current

Main output: Vin = 44 to 75 VDC

58 71

A rms

12V output, Vin = 36 to 44 VDC (50% power derating)

12V output, Vin = 44 to 75 VDC Nominal Output Power

Standby output Vin = 36 to 75 VDC

700 850 10

W

Overshoot Output voltage overshoot at turn-on. 3 %

Transient Response

Maximum recovery time and deviation of initial set point due to a 50% load change, 1A/µs. Maximum recovery time: 12V output Maximum deviation: 12V output Maximum recovery time and deviation of initial set point due to a 100% load change, 1A/µs. Maximum recovery time: 12V output Maximum deviation: 12V output

800 2

2 4

µs %

ms %

Turn-On Delay Time required for initial output voltage stabilization after application of DC input.. 1.5 Sec

Output Regulation See Model Selection table on page 1.




Interface Signals and Internal Protection Parameter Conditions/Description Min. Nom. Max. Units

Overvoltage Protection Latch-style overvoltage protection. Output adjusted to 12V: Output adjusted to 7V:

14.36 8.8

15.65 9.2

V

Overcurrent Protection Current limit. 12V output (Vin = 44 to 75V) 12V output (Vin = 36 to 44V) Standby output:

74 61 2.2

78 64

85

70 4

A

Short-Circuit Protection

Power supply to recover when short is removed.

Overtemperature/ Fan Failure Warning

12V output will shut down in the event of an overtemperature condition or blocked fan rotor. Supply's fan and Vaux are active. Power supply will recover when OT condition is removed. Amber OT LED will turn ON to indicate fault condition. OT/Fan Fail is an open-collector signal with 20-mA pull-down. High signal indicates a normal operating condition. Output will go low at least 100 ms before OT condition shuts down the power supply. An amber light will indicate FF

DC OK

TTL open-collector signal with active 20-mA pull-down. Represents percent of output voltage where signal is OK. Below this voltage, a signal high condition indicates an output which is out of tolerance. Green DC OK LED on front panel indicates normal operation. 1

90 110 %

Input Power Fail Warning

TTL open-collector signal with active 20-mA pull-down. High indicates an input power fail. Power Fail Warning will turn OFF green INPUT OK LED. Represents the time after warning signal before Vout drops to 95% due to loss of input power. 1

5 ms


Resistance of connection to logic ground which allows user to determine if power supply is present. 1

10 Ω

Current Share Main output only. Difference in current between two supplies at >10% load value (dl < 10% Isum)

14.2 A

Remote Sense Total voltage compensation for cable losses with respect to the main output. 0.5 V

Output Enable

Open circuit or logic high from ENA pin to Vo1 RTN shuts OFF Vo1; Vaux and fan are operational. Logic low (2 mA sink capability) or jumper will turn ON Vo1 within 100 ms. Open circuit voltage on enable pin is 3.3 VDC. Externally applied voltage to the enable pin should NOT exceed 7 VDC. Signal is referred to as Logic Return (LRTN).

1 Also available on I2C data line.




I2C Bus Management Interface1 Static Includes static information such as: part number and revision level, output rating, serial number,

date code, and manufacturing location.

Status (Logic 1 or 0) Power Supply OK. Input OK. DC Output OK. Power Supply Seated. Overtemperature. Overcurrent. Fan OK.

Real-Time Monitoring Output voltage (main output) 0.01V LSD. Output current (main output) 0.1A LSD.

Control Signals Enable for main output. Output voltage to: 0.0154V resolution Output current to: 0.5A resolution Fan speed level.

1 Reference "I2C Management Interface" and "EEPROM Table of Contents" documents for FND850-12RD (consult factory).

Safety, Regulatory, and EMI Specifications Parameter Conditions/Description Min. Nom. Max. Units

Agency Approvals UL60950, (UL) CSA 60950 (cUL), EN60950 (TÜV), CE Mark for LVD.

Electromagnetic Interference

FCC CFR title 47 Part 15 Sub-Part B, Conducted: EN55022/CISPR 22. Radiated:

A A

Class

Voltage Fluctuation Unit must start up Pass

Per EN61000-4-2, Level 4. contact 8 . kV ESD Susceptability

Per EN61000-4-2, Level 4. air 15 kV

Radiated Susceptability Per EN 61000-4-3, Level 3. 10 . V/M

EFT/Burst Per EN 61000-4-4, Level 4. ± 2 . kV

Input Transient Protection

Per EN 61000-4-5, Class . Line-to-Line: Line-to-Ground:

± 0.5 ± 0.5 . kV

RF Conducted Disturbances Per EN 61000-4-6, Level 3. 1 10 . V

Leakage Current Per EN60950. At 36 VDC: 3.5 mA

1 RF Conducted disturbances value to be provided.




Environmental Specifications Parameter Conditions/Description Min. Nom. Max. Units

Altitude Operating. Non-Operating.

10K 40K ASL ft

Operating Temperature

Internal DC fan for cooling. At 100% load: 1 At 50% load:

0 0

50 70

ºC

Storage Temperature -40 85 ºC

Temperature Coefficient 0 ºC to 70 ºC (after 15-minute warm-up). 0.02 %/ºC

Non-condensing (operational) 90 %RH Relative Humidity

Non-condensing (non operational) 95 %RH

Shock Operating: half-sine, 10 ms, 3-axis. Non-Operating: half-sine, 10 ms, 3-axis.

+20

+40 Gpk

Vibration Operating: swept sine 5-2000-5 Hz, 5-32 Hz, 0.02îDA, 32-2000 Hz. Non-operating: random 10-2000 Hz.

1

6.16

Gpk

Grms

1 At temperature over 50°C – linear power derating to 50% of rated load up to 70°C Reliability

Parameter Conditions/Description Min. Nom. Max. Units MTBF (Calculated) MILHDBK 217F Ground Benign.

Useful Life. 100 000

7 hrs

yrs




Mechanical Drawings

FRONT VIEW

REAR VIEW




TOP VIEW

Front Top Rear




FND850-12RG SIDE VIEW

Connector Information Power Supply: Input - Anderson power connector: Horizontal (Bottom), right angle mount 2x: P/N 1336G1 Horizontal (Top), right angle mount 2x: P/N 1337G1 Staple 2 x 2 P/N 114555P6 Housing red P/N 1327 Housing black P/N 1327G6 Housing green 2x P/N 1327G5 Output - P/N FCI 51732-020 Mating Connections: Input – Anderson Power connector : 1452G3 Output - P/N: FCI 51742-020 (Backplane) P/N: FCI 51762-020 (Right Angle)

Input connector




Input Connector Input Location Chassis (Safety) Ground Green + DC input voltage Red - DC input voltage Black Output Connector Pin Assignments




FND850-12RG Signal/Pin/Ground Reference Information

Signal Pin Location Ground Reference OverTemperature / Fan Fail U1 Logic Ground (LRTN) DC Input Fail Warning U2 Logic Ground (LRTN) Power Supply Present U3 Logic Ground (LRTN) Output Voltage Fault U4 Logic Ground (LRTN) Internal Ground U5 Internal Ground (SRTN1) ADDR0, I2C Address Bus T1 Internal Ground (SRTN) ADDR1, I2C Address Bus T2 Internal Ground (SRTN) ADDR2, I2C Address Bus T3 Internal Ground (SRTN) ADDR3, I2C Address Bus T4 Internal Ground (SRTN) ADDR4, I2C Address Bus T5 Internal Ground (SRTN) DATA, I2C Data Line S1 Logic Ground (LRTN) CLOCK, I2C Clock Line S2 Logic Ground (LRTN) Auxiliary Power +5V S3 Aux Ground Auxiliary Power Ground S4 Aux Ground Logic Ground S5 Logic Ground (LRTN2) Output Enable3 R1 Logic Ground (LRTN) Vsense+ R2 Vsense- Vsense- R3 Vsense- Output Margin R4 Internal Ground (SRTN) Active Current Sharing R5 Internal Ground (SRTN) Vout+ P1, P2, P3 Vsense- Vout- P4, P5, P6 Vsense-

1 SRTN (Signal Return) is internally connected with Vout- 2 LRTN (Logic Return) 10R resistor internal connected to Aux Ground 3 Short pin length




FND850-12RG locking system NUCLEAR AND MEDICAL APPLICATIONS - Power-One products are not designed, intended for use in, or authorized for use as critical components in life support systems, equipment used in hazardous environments, or nuclear control systems without the express written consent of the respective divisional president of Power-One, Inc.



105572 Rev. AA2 Page 1 of 13 www.power-one.com

FNP600/850/1000 AC-DC Front-Ends& FNR-5-12G/FNR-5-48G Power Shelves Data Sheet

Description The FNP600/850/1000 power factor corrected (PFC) front ends provide (depending on model) either a 12 VDC or a 48 VDC output for telecom, datacom, and other distributed power applications. Their small 1U by 2U size allows for configurations of either height in hot-swap redundant systems while their internal fan and cooling design permits wide use with reliable operation.

Status is provided with front panel LEDs, logic signals, and via the I2C management interface bus. In addition, the I2C bus can enable the power supply, control fan speed, and on the 12 VDC models it allows for adjusting the output voltage from 7 to 12 VDC. This powerful feature allows the same power supply to be used in various applications where bus voltages driving isolated dc-dc converters and POL regulators may be different.

Also, the FNP850-12R is uniquely designed with airflow from the rear of the power supply to the front. This airflow direction supports those critical applications where space limitations and/or higher ambient temperatures near the rear of the rack system, prohibit the discharge of higher temperature airflow from regular front-to-rear cooled power supplies.

The FNP600/850/1000's meet international safety requirements and are CE marked to the Low Voltage Directive (LVD).

Features • RoHS lead free solder and lead solder exempted

products are available • High density front-ends 10.5 to 16.1 W/in3 • Universal input voltage range (90-264 VAC) with PFC • 1U or 2U height configurations • Droop current share with ORing FETs • I2C interface status and control • Standby voltage of 12 VDC @ 0.5 A • Overtemperature, overload, and overvoltage protection • Status LEDs: AC OK, DC OK, Overtemperature • FNP850-12 model has airflow direction from

front-to-rear or from rear-to-front (-12R model)

Applications

• Telecom • Datacom • Distributed power systems

600-to-5000-Watt Front-End Power Solutions

I2C Management Software: All FNP front-ends can be controlled via Power-One's GUI-driven I2C Management software and an I2C-to-USB interface (P/N HZZ02002G). An I2C Programming Manual describes the complete range of parameters that can be programmed to these front-ends. This manual is available by searching on "FNP600" at www.power-one.com.

(600, 850, or 1000 Watts)

FNR-5 Power Shelf

FNR-5-48G Power Shelves provide up to 5000 watts in a 19" rack. (See the Rack section for power shelf details.)




Model Selection

Model Nominal Output Voltage (VDC) 1

Adjustment

Range (VDC)

Maximum Output Current (Amps)

Line

Regulation (%)

Load

Regulation (%) 2

Ripple &

Noise pk-pk % 3

Compatible

Shelf

FNP600-12 12 12 (Standby)

7 to 12 N/A

51 0.5

0.17 8

6 8

1 1

FNR-5-12


7 to 12 N/A

73 0.5

0.17 8

6 8

1 1

FNR-5-12

FNP850-12R 4 12 12 (Standby)

7 to 12 N/A

73 0.5

0.17 8

6 8

1 1

FNR-5-12


44 to 50.5 N/A

12.6 0.5

0.17 8

6 8

1 1

FNR-5-48

FNP1000-48 48 12 (Standby)

44 to 50.5 N/A

21 0.5

0.17 8

6 8

1 1

FNR-5-48

1 Models with 5V and 3.3V standby voltages are also available. (Contact factory.) 2 Primary 12V and 48V outputs have built-in droop regulation. 3 Maximum peak-to-peak noise expressed as a percentage of output voltage; 20 MHz bandwidth. 4 FNP850-12R model has airflow from rear to front.


Options Suffixes to Add to Part Number

RoHS lead solder exemption No RoHS suffix character required.

RoHS compliant for all 6 substances Add "G" as the last character of the part number.


AC Input Voltage Single-phase continuous input range. 90 264 VAC

Input Frequency AC input. 47 63 Hz

Hold-up Time After last AC line peak at full power. At 115 VAC. 201 ms

Input Current At full-rated load. At 90 VAC. 14 A rms

Inrush Surge Current Internally limited. Vin = 230 VAC. 25 ºC 34 A pk

Power Factor Per EN61000-3-2 0.97 W/VA 1 FNP1000-48 model has a hold-up time of 16 ms.




Output Specifications

Parameter Conditions/Description Min. Nom. Max. Units Efficiency: FNP600-48 FNP1000-48 FNP600-12 FNP850-12

Full rated load at 230 VAC input. 88 88 84 84

89.5 89.5 87 87

%

Minimum Load Minimum loading required to maintain regulation. 0 A

Output Power FNP1000 FNP850 FNP600

1006 856 600

W

Overshoot Output voltage overshoot at turn-on. 3 %

Transient Response Maximum recovery time to within 1% of initial set point due to a 50% load change, 1A/µs. 12V or 48V output: Standby output: Maximum deviation: 12V or 48V output: Standby output:

400 2

2 4

µs ms

% %

Turn-On Delay Time required for initial output voltage stabilization after application of AC input..

1.5 Sec

Output Regulation See Model Selection table.

Protection Parameter Conditions/Description Min. Nom. Max. Units

FNP600-12 & FNP850-12

Latch-style overvoltage protection. Output adjusted to 12V:

14.4

15

15.6

V

FNP600-12: FNP850-12:


8.75 8.44

9.04 8.75

9.33 9.1

V

Overvoltage Protection

FNP600-48 & FNP1000-48


571

60

V

FNP600-12 Current limit.12V output: 12V Standby output:

54 0.55

56 0.75

61 1.0

A


77 0.55

80 0.75

88 1.0

A


13 0.75

14 16 1.75

A

Overcurrent Protection (Power supply recovers when short is removed.)


22 0.75

23 25 1.75

A


Power supply recovers when short is removed.


FNP 12V or 48V Vo1 supply output will shut down in the event of an overtemperature condition or blocked fan rotor. Supply's fan and Vaux are active. Power supply will recover when OT condition is removed. Amber OT LED will turn ON to indicate fault condition. OT/Fan Fail is an open-collector signal with 20-mA pull-down. High signal indicates a normal operating condition. Output will go low at least 100 ms before OT condition shuts down the power supply. Internally pulled up to 5V with a 5.1 kΩ resistor. Note. 2

1 FNP1000-48 overvoltage protection range is 56 V minimum and 60 V maximum. 2 A pull-up to 3.3V can be achieved by terminating the logic signal with a 10 kΩ resistor to logic ground.




Control and Monitoring Parameter Conditions/Description Min. Nom. Max. Units

DC OK TTL open-collector signal with active 20-mA pull-down. Represents percent of output voltage where signal is OK. Below this voltage, a signal high condition indicates an output which is out of tolerance. Green DC OK LED on front panel indicates normal operation.1

Internally pulled up to 5V with a 5.1 kΩ resistor. Note. 2

90 110 %

Input Power Fail Warning TTL open-collector signal with active 20-mA pull-down. High indicates an input power fail. Power Fail Warning will turn OFF green AC OK LED. Represents the time after warning signal before Vout drops to 95% due to loss of input power.1 Internally pulled up to 5V with a 5.1 kΩ resistor. Note. 2

5 ms


Resistance of connection to logic ground which allows user to determine if power supply is present. 1

10 Ω

FNP600-12:

Main output only. Difference in current between two supplies at >10% load value.

5

FNP850-12: 7

FNP600-48: 2

Current Share

FNP1000-48: 2

A

Remote Sense

Total voltage compensation for cable losses with respect to the main output.

0.5 V

Output Enable

Open circuit or logic high from ENA pin to Vo1 RTN shuts OFF Vo1; Vaux and fan are operational. Logic low (2 mA sink capability) or jumper will turn ON Vo1 within 100 ms. Open circuit voltage on enable pin is 3.3 VDC. Externally applied voltage to the enable pin should NOT exceed 7 VDC. Signal is referred to as Logic Return (LRTN).

1 Also available on I2C data line. 2 A pull-up to 3.3V can be achieved by terminating the logic signal with a 10 kΩ resistor to logic ground.

I2C Bus Management Interface Static Includes static information such as: part number and revision level, output rating, serial number, date code,

and manufacturing location.

Status (Logic 1 or 0)

Power Supply OK. AC Input OK. DC Output OK. Power Supply Seated. Overtemperature. Overcurrent. Fan OK.

Real-Time Monitoring Output voltage (main output) 0.1V LSD. Output current (main output) 0.1A LSD. Time in service.

Control Signals Enable for main output. Output voltage to: (0.01V resolution on 12V supplies; 0.05V resolution on all 48V supplies). Fan speed level.





Agency Approvals UL60950, (UL) CSA 60950 (cUL), EN60950 (TÜV), CE Mark for LVD.



B A

Class

Harmonics Per IEC61000-3-2. A Class

Voltage Fluctuation and Flicker

Per IEC61000-3-3. Pass

ESD Susceptability Per EN61000-4-2, Level 4. 8 . kV

Radiated Susceptability

Per EN 61000-4-3, Level 3. 10 . V/M

EFT/Burst Per EN 61000-4-4, Level 4. ±4 . kV


Per EN 61000-4-5, Class 3. Line-to-Line: Line-to-Ground:

1 2

. kV

RF Conducted Disturbances

Per EN 61000-4-6, Level 3. 10 . V

Voltage Interruptions Per EN 61000-4-11, performance criterion B 30%. Per EN 61000-4-11, performance criterion C 60%. Per EN 61000-4-11, performance criterion C 95%.

10 100 5

. ms ms Sec

Voltage Sag Immunity Per SEMI F47-0999 > 100 VAC. No output voltage interruption.

.

Leakage Current Per EN60950. At 240 VAC: 3.5 mA



10K 40K

ASL ftASL ft

FNP600-12: FNP850-12: FNP600-48: FNP1000-48:

Internal DC fan for cooling. At 100% load: At 50% load:

0 0

50 70

ºC


FNP850-12R: Internal DC fan for cooling. At 100% load: At 94% load: At 50% load:

0 0 0

40 50 70

ºC


Temperature Coefficient 0 ºC to 70 ºC (after 15-minute warm-up). 0.02 %/ºC

Relative Humidity Non-condensing 95 %RH


+20

+40

Gpk

Gpk


1

6.15

Gpk

Grms

Reliability


Demonstrated. Useful Life.

100 000 250 000

10

hrs hrs yrs




Mechanical Drawings




Connector Information Power Supply: Input - IEC 320 input (Male) standard line cord connection Output - P/N FCI 51732-020 Mating Connections: Input - IEC 320 output (Socket) Standard line cord (15A) Output - P/N: FCI 51742-020 (Backplane) P/N: FCI 51762-020 (Right Angle)

Input IEC Connector Input Location Chassis (Safety) Ground Ground Line 1 (Line) L Line 2 (Neutral) N




Output Pin Assignments Signal Pin Location Ground Reference Overtemperature / Fan Fail U1 Logic Ground (internal 10 Ω connection to AUX Ground) AC Power Fail Warning U2 Logic Ground (internal 10 Ω connection to AUX Ground) Power Supply Present U3 Logic Ground (internal 10 Ω connection to AUX Ground) Output Voltage Fault U4 Logic Ground (internal 10 Ω connection to AUX Ground) Internal Ground U5 Internal Ground (external connected with Vsense-) ADDR0, I2C Address Bus T1 Internal Ground (external connected with Vsense-) ADDR1, I2C Address Bus T2 Internal Ground (external connected with Vsense-) ADDR2, I2C Address Bus T3 Internal Ground (external connected with Vsense-) ADDR3, I2C Address Bus T4 Internal Ground (external connected with Vsense-) ADDR4, I2C Address Bus T5 Internal Ground (external connected with Vsense-) DATA, I2C Data Line S1 Logic Ground (internal 10 Ω connection to AUX Ground) CLOCK, I2C Clock Line S2 Logic Ground (internal 10 Ω connection to AUX Ground) Auxiliary Power +12V S3 Aux Ground Auxiliary Power Ground S4 Aux Ground Logic Ground S5 Logic Ground (internal 10 Ω connection to AUX Ground) Output Enable 1 R1 Logic Ground (internal 10 Ω connection to AUX Ground) Vsense+ R2 Vsense- Vsense- R3 Vsense- Output Margin R4 Vsense- Reserve R5 Vsense- Vout+ P1, P2, P3 Vsense- Vout- P4, P5, P6 Vsense-

1 Short pin length




Racks (FNR-5-12G and FNR-5-48G Power Shelves) Each rack (power shelf) is 1U high with backplane and designed for up to five front-end models in parallel or in n+1 operation. Each power shelf has: • Output terminals with two M4-screws on each power tab. • Two fast-on contacts for system earthing. • Address coding over five pole DIP switch on each unit, 37-pin D-Sub connector with I2C-lines, monitoring signals and

support functions. • Provides a start-up synchronization circuit and EMV filters.

FNR-5-12G and FNR-5-48G Power Shelf Front View Overall Mechanical Dimensions (FNR-5-12G and FNR-5-48G Power Shelves)

FNR-5-12 & FNR-5-48 Mechanical Data (W, H, D) 17.68” (449 mm) x 1.72” (43.6 mm) x 13.05” (331.5 mm)




Output Connector Descriptions (FNR-5-12G & FNR-5-48G)

Location Description A 5-Bit DIP switch for I2C addressing of PSU 1 B 5-Bit DIP switch for I2C addressing of PSU 2 C 37-pin SUB-D connector, controlling and auxiliary power (output 2) D 5-Bit DIP switch for I2C addressing of PSU 3 E Output 1 minus F Output 1 plus G 5-Bit DIP switch for I2C addressing of PSU 4 H Earth connection I 5-Bit DIP switch for I2C addressing of PSU 5

Mechanical Data (FNR-5-12G and FNR-5-48G Power Shelves)

A B C D E F G H I




Accessories: Center Angular Brackets are set in the middle for shelf mounting: Center Angular Bracket sets can be ordered: Power-One part no.: HZZ01222 Note: Each Center Angular Bracket set contains 2 brackets and 8 screws.




I2C to USB Interface Demonstration Kit HZZ02002G:

An I2C to USB Interface Demonstration Kit can be ordered: Power-One part no.: HZZ02002G



I2C <to>USB Interface


Features• Single-phase AC input• 2U or 3U height configurations• Power Factor Correction (PFC) meets EN61000-3-2• Current share with ORing FETs • Remote voltage adjust• Overtemperature, overload, and overvoltage protection• Power supply status LEDs• I2C protocol status and TTL alarms• Standby voltage - 12VDC @ 500mA

Model SelectionMODEL OUTPUT ADJUSTMENT MAXIMUM OUTPUT LINE LOAD RIPPLE & NOISE INITIAL SETTING

VOLTAGE RANGE CURRENT REGULATION REGULATION (NOTE 1) %p-p (NOTE 2) ACCURACY

FNP1100-48 48V 45.6V to 50.4V 23A 0.15% 3% 1% 0.1%

NOTES: 1) With Remote Sense connected. Output is droop regulated.2) Maximum peak to peak noise expressed as a percentage of output voltage, 20 MHz bandwidth.

Input SpecificationsPARAMETER CONDITIONS/DESCRIPTION MIN NOM MAX UNITS

Input Voltage - AC Single-phase continuous input range. 85 264 VACInput Frequency AC input. 47 63 HzHold-up Time After last AC line peak at full power. At 115 VAC. 20 mSInput Current At full rated load. At 85 VAC. 15.8 ARMS

Inrush Surge Current Internally limited by thermistor. Vin = 264VAC (one cycle). 25° C. 25 APK

Power Factor Per EN61000-3-2 0.98 W/VAOperating Frequency Switching frequency 200 kHz

Distributed Power Front-End

FNP1100 AC-DC Series Data Sheet48V Output, 1100 Watts

REV. JAN 28, 2005 Page 1 of 6 www.power-one.com

The FNP1100-48 rack-mounted AC-DC front-end provides 48 volts for telecom, datacom, and other distributed powersystems applications. FNP's are available in either 2U or 3U height configurations, are hot-swappable in redundantsystems, and can provide up to 8 kW of output power.The FNP1100-48 provides excellent protection against input voltage transients. Supply outputs are fully floating,meaning that users can use them for either positive or negative polarity needs.Output voltage terminals and access to interfaces is through a connector at the rear of the supply. The AC input fans,handles, and indicator lights are located on the front of the supply. Airflow is from the front through the rear. Alarm,monitoring, and control signals are floating from the main output and can be referenced to the positive or negativeoutput or sense line of the power supply.The FNP Series meets international safety requirements and is CE Marked to the Low Voltage Directive.

Description

Model numbers highlighted in yellow or shaded are not recommended for new designs.


Output SpecificationsPARAMETER CONDITIONS/DESCRIPTION MIN NOM MAX UNITS

Efficiency Full rated load at 115VAC input. 48V models 80 %Minimum Loads Minimum loading required to maintain regulation. 0 AOutput Power 1100 WattsOvershoot / Undershoot Output voltage overshoot/undershoot at turn-on. 0 %Transient Response Maximum recovery time, to within 1% of initial set point due to a 400 µs

50% load change, 1A/µS, 2% max. deviation.Turn-On Delay Time required for initial output voltage stabilization. 3 SecTurn-on Rise Time Time required for output voltage to rise from 10% to 90%. 200 msOutput Regulation (See model-selection data on page 1.)

Interface Signals and Internal ProtectionPARAMETER CONDITIONS/DESCRIPTION MIN NOM MAX UNITS

Overvoltage Protection Latch style overvoltage protection. 48V output models 51 60.0 VOvercurrent Protection Straight line current limit, as a percentage of maximum rated load. 105 125 %Short Circuit Protection Enabled during overcurrent protection when Vout falls below 34V, as 25 %

percentage of maximum rated load.Overtemperature/ Time from warning signal to shutdown due to excessive internal . 100 msFan Failure Warning temperature or fan failure. Latching shutdown. (Note 1)Output Good TTL open collector signal with active 20mA pull-down. Percent of output 95 %

voltage where signal is OK. Below this voltage, signal high indicates out oftolerance output. (Note 1)

Input Power Fail Warning TTL open collector signal with active 20mA pull-down. High indicates input 5 mspower fail. Time after warning signal before Vout drops to 95% due to lossof input power. (Note 1)

Power Supply Present Signal Resistance of connection to logic ground to allow user to determine if 1000 Ohmspower supply is present. (Note 1)

Remote Sense Total voltage compensation for cable losses with respect to the main output. 1.0 VInhibit TTL compatible logic signal. Logic “high” source current required to inhibit outputs. 2 mA

Logic ground to enable output.Auxiliary Power Rated current of isolated 12 VDC power source. 500 mARemote Output Margining Connecting Output Margin pin to -Sense decreases voltage. Connecting output 4.8 5 5.2 %

Margin pin to 5V source increases voltage.

Safety, Regulatory, and EMI SpecificationsPARAMETER CONDITIONS/DESCRIPTION MIN NOM MAX UNITS

Agency Approvals UL60950, (UL) CSA 60950 (cUL), EN60950 (TÜV).Electromagnetic Interference FCC CFR title 47 Part 15 Sub-Part B - Conducted. A

EN55022 / CISPR 22 Conducted. A Class

ESD Susceptibility Per EN61000-4-2, level 4. 8 kVRadiated Susceptibility Per EN61000-4-3, level 3. 10 V/MEFT/Burst Per EN61000-4-4, level 4. ±4 kVInput Transient Protection Per EN61000-4-5, class 3. Line-to-Line 1 kV

Line-to-Ground 2Voltage Interruptions Meets EN61000-4-11Voltage Sag Immunity Per SEMI F47-0999 > 100VAC No Output Voltage InterruptionLeakage Current Per EN60950. at 127 VAC 1.00 mA

at 240 VAC 1.75

NOTE: 1) Also available on I2C data line.




Environmental SpecificationsPARAMETER CONDITIONS/DESCRIPTION MIN NOM MAX UNITS

Altitude Operating. 10k ASL Ft.Non-Operating. 40k ASL Ft.

Operating Temperature At 100% load: 0 50 °CAt 50% load: 70 °C

Storage Temperature -40 85 °CTemperature Coefficient 0 °C to 70 °C (after 15-minute warm-up). .02 %/°CRelative Humidity Non-Condensing. 95 %RHShock Operating: half-sine 10ms, 3 axis +20 GPK

Non-operating: half-sine 10ms, 3 axis +40Vibration Operating: swept sine 5-2000-5 Hz, 5-32 Hz, 0.02îDA, 32-2000 Hz 1 GPK

Non-operating: random 10-2000 Hz 6.15 Grms

.522

POWER CORD

STRAIN RELIEF

13.752

+.020

-.020

+.015

-.015

13.827

.178

.977

.786

LABEL ID

+.020

-.020

+.015

-.015

TOP VIEW

RIGHT SIDE VIEWMETRIC MOUNTING

M3 X 0.5 (2 PL)



Mechanical Drawing




Mechanical Drawing (Cont.)

3.250

3.7213.378

3.717

4.738

VOLTAGE

ADJ

.225

1.180

2.281

IEC CONNECTOR

ON/OFF SWITCH

+.010

-.010

+.015

-.015

.522

POWER CORD

STRAIN RELIEF

+.015

-.015

FRONT VIEW

RIGHT SIDE PARTIAL VIEW

4.216

.816

3.171

.977

+.020

-.010

LEFT SIDE VIEW

FRONTREAR




Mechanical Drawing (Cont.)

4.216 REF

.6002.050

.320

.521

1.203

4.216

+.020

-.010

+.015

-.015

+.015

-.015

+.015

-.015

+.010

-.010

+.010

-.010

REAR VIEW LEFT SIDE PARTIAL VIEW




Connector Information

Power Supply:Input - IEC 320 input (Male) standard line cord connectionOutput - FCI 51939-022 (CONN MALE 5 Power Pins and 16 Signal Pins)

Mating Connections:Input - IEC 320 output (Socket) Standard line cord (15A)Output - FCI 51751-005 (CONN FEMALE 5 Power Pins and 16 Signal Pins STD PWB)

Input PinsINPUT LOCATION

Chassis (Safety) Ground GroundLine 1 (Line) LLine 2 (Neutral) N

Output PinsSIGNAL PIN LOCATION GROUND REFERENCE

Output Voltage Fault D1 Logic GroundLogic Ground C4 Logic GroundOver Temperature / Fan Fail D4 Logic GroundOutput Margin D3 V Sense -

ADDR2, I2C Address Bus C3 Logic GroundAuxiliary Power 12V B2 Logic GroundAC Power Fail Warning B4 Logic GroundPower Supply Present D2 Logic Ground

ADDR1, I2C Address Bus C2 Logic Ground

ADDR0, I2C Address Bus C1 Logic GroundOutput Inhibit A4 Logic Ground

DATA, I2C Data Line A1 Logic Ground

CLOCK, I2C Clock Line B1 Logic GroundV Sense - A2 V Sense -V Sense + A3 V Sense -Vout - P1, P2 V Sense -Vout + P3, P4 V Sense -

NUCLEAR AND MEDICAL APPLICATIONS - Power-One products are not designed, intended for use in, or authorized for use as critical componentsin life support systems, equipment used in hazardous environments, or nuclear control systems without the express written consent of the respectivedivisional president of Power-One, Inc.

TECHNICAL REVISIONS - The appearance of products, including safety agency certifications pictured on labels, may change depending on thedate manufactured. Specifications are subject to change without notice.


MCD10074 REV. 1.1, 29-Aug-08 Page 1 of 17 www.power-one.com

FNP1500/1800 Front-Ends& FNR-3 Power Shelves Data Sheet

Applications • Telecommunications • Data communications • Servers • Distributed power

Features • RoHS compliant for all six substances • High density front-ends 15.2 to 18.3 W/in3 • Wide input voltage range 85 to 264 VAC • 12 V standby voltage, 1A per front-end • Highly efficient topology reduces operating costs • I2C interface status and control • I2C voltage and current limit setting • Analog output voltage setting • Overtemperature, output overvoltage, and output overcurrent protection • ORing circuits for true redundant operation: Vo1: ORing FETs; Vo2: ORing Diodes • Status LEDs: AC OK, DC OK, and Fan Fail/Overtemperature Fail

Description The FNP1500/1800 front-ends are power-factor-corrected (PFC) which (depending on model type) provide a 12 VDC or 48 VDC (1500 or 1800 watt) output, and can be used in hot-swap redundant systems. Their very small dimensions allow configuration of up to three units in a 1U rack. The FNP front-ends have a front-mounted AC receptacle. The highly efficient thermal design with internal-fan cooling permits their use over wide temperature ranges and provides very high reliability.

Status information is provided with front panel LEDs, logic signals, and via an I2C management interface. In addition, the I2C bus can enable the power supply, set high fan speed, adjust the output voltage, and set the output current limit. The FNP1500/1800's meet international safety standards and display the CE-Mark for the European Low Voltage Directive (LVD).

FNR-3-12G and FNR-3-48G power-shelf solutions provide rectification, system management, and power distribution, while maintaining high reliability and offering flexibility for future expansion. The power shelves can be configured with up to three hot-swappable 1500 or 1800-watt AC-DC front-ends.

FNR-3 Power Shelf

FNR-3 shelves provide up to 5400 watts in a 19" rack. (See the Rack section for power shelf details.)

FNP1500/1800 front-ends have front-mounted AC input receptacles.




Model Selection Output 1 Output 2

Model Input voltage

VAC auto selected 1

Vo1 nom VDC

Io1 max ADC

Vo2 nom VDC

Io2 max ADC

Rated powerW

Compatible Shelf 2

FNP1500-12G 108 – 264 85 – 105

12 12

129 @ 11.64V 101.8 @ 11.78A

12 12

1 1

1512 1212 FNR-3-12G

FNP1500-48G 105 – 264 85 – 105

48 48

32.2 25.4

12 12

1 1

1512 1212 FNR-3-48G

FNP1800-12G 180 – 264 105 – 180 85 – 105

12 12 12

150 @ 11.52V 129 @ 11.64V

101.8A @ 11.78V

12 12 12

1 1 1

1740 1512 1212

FNR-3-12G

FNP1800-48G 180 – 264 105 – 180 85 – 105

48 48 48

39.2 32.2 25.4

12 12 12

1 1 1

1812 1512 1212

FNR-3-48G

1 The available output power is automatically adjusted depending on the input voltage. 2 1U standard racks are available from Power-One. See the Rack (Power Shelf) section of this data sheet for configurations and details.

Absolute Maximum Ratings Stress in excess of the absolute maximum ratings may cause performance degradation, adversely effect long-term reliability, or cause permanent damage to the converter.

Parameter Conditions/Description Min Max Unit

Input voltage Continuous Transient, 60 ms max.

264 300

VAC VAC

Operating ambient temperature Vi min-Vi max, Io nom, cooling by internal fan @ 100 % load @ 50 % load

0 0

50 70

°C °C

Storage temperature Non-Operating -40 85 °C

Environmental, Mechanical, & Reliability Specifications Parameter Conditions/Description Min Nom Max Unit

Altitude Operating Non-Operating

10 k 40 k

ASL Ft. ASL Ft.

Operating 10 90 % RH Relative humidity, non-condensing Storage 5 95 % RH

Temperature coefficient 0 °C to 70 °C (after 15 min warm-up) 0.02 %/K Shock IEC/EN 60068-2-27, 11 ms 40 gpk Sinusoidal vibration IEC/EN 60068-2-6

2-8 Hz 8-200 Hz

200-500 Hz

7.5 2 4

mil gpk gpk

Random vibration 10-2000 Hz 6.15 grms MTBF Calculated per Bellcore (SR-332, Issue 1):

GB 25 °C GB 25 °C (FNP1500-12G)

Demonstrated

230 TBD 250

kh kh kh




Safety Specifications Maximum electric strength testing is performed in the factory according to EN 550116, IEC/EN 60950, and UL 60950. Input-to-output electric strength tests should not be repeated in the field. Power-One will not honor any warranty claims resulting from electric strength field tests.

Parameter Conditions/description Min Nom Max Unit

Agency approvals UL60950, (UL) CSA 60950 (cUL), EN 60950(TÜV), CE Mark for LVD

Insulation safety rating Input to case Input to output Output to case


Electric strength test voltage Input to case Input to output Output to case

Output 1 to output 2

2.12 4.2 1

0.5 0.1

kVDCkVDC kVDCkVDC

1 Subassemblies are pre-tested with 4.2 kVDC in accordance with EN50116 and IEC/EN60950.

EMC Specifications Parameter Description Criterion

Electrostatic discharge IEC/EN 61000-4-2, level 4 Performance criterion B Electromagnetic field IEC/EN 61000-4-3, level 3 Performance criterion A Electrical fast transients/burst IEC/EN 61000-4-4, level 3 Performance criterion B Surge IEC/EN 61000-4-5, level 3 Performance criterion B Voltage dips and interruptions IEC/EN 61000-4-11 Performance criterion B or better RF conducted immunity IEC/EN 61000-4-6 10 VAC, AM 80 %, 1 kHz

Performance criterion A Emissions conducted CISPR 22/EN 55022/EN 61204 Class B Emissions radiated CISPR 22/EN 55022/EN 61204 Class A Harmonics IEC/EN 61000-3-2 Class B Voltage fluctuation and flicker IEC/EN 61000-3-3 Pass Voltage sag SEMI F47-0200 (High Line 230V) Pass

Input Specifications Specification is valid for input voltage, load, and temperature ranges, unless otherwise stated.


Input voltage 85 230 264 VAC Input frequency 47 50/60 63 Hz Turn-on input voltage Ramping up 79 85 VAC Turn-off input voltage Ramping down 70 78 VAC Inrush current limitation 115/230 VAC acc. ETS 300 132-1

< 100 ms 50

Apk

Hold-up time After last AC line peak ,Vi = 230 VAC, Po nom 20 ms Power factor Vi nom, Io nom 0.95 W/VA Efficiency Vi = 230 VAC, Io nom, TC = 25 °C 89 1 90 % Max input current 20 Arms Input connector 16A – 20 A / 250 VAC; according to IEC320 C19

1 87% for FNP1500-12




Output Specifications, 12Vout Models Specification is valid for input voltage, load, and temperature ranges, unless otherwise stated.

Parameter Conditions/Description Min Nom Max Units

Nominal output voltage Io = 64.5 A 12 VDC Output voltage set point accuracy Vi = 230 VAC, Io1 = 65.5 A, TC = 25 °C

(Factory setting) 11.93 -0.42

12 12.05 +0.42

VDC % Vo1 nom

Output voltage trimming Adjustable via I2C (Vo1 set) Adjustable via Margin pin (R input)

7 6.2

12 13 1 Vo1 set

VDC VDC

Nominal current output 1

FNP1500-12G Io1 nom @ Vi =108 VAC – 264 VAC, Po 1.5 kW Io1 nom @ Vi = 85 VAC – 105 VAC, Po 1.2 kW

129.0 101.8

129.0

ADC ADC


FNP1800-12G Io1 nom @ Vi =108 VAC – 264 VAC, Po 1.75 kW Io1 nom @ Vi =108 VAC – 180 VAC, Po 1.5 kW Io1 nom @ Vi = 85 VAC – 105 VAC, Po 1.2 kW

150.0 129.0 101.8

150.0

ADC ADC ADC

Current limit output 1

FNP1500-12G Io1 max @ Vi = 108 VAC – 264 VAC droop hiccup Io1 max @ Vi = 85 VAC – 105 VAC droop hiccup

147.4 120.2

ADC ADC


FNP1800-12G Io1 max @ Vi = 180 VAC – 264 VAC high droop Io1 lim @ Vi = 180 VAC – 264 VAC hiccup Io1 max @ Vi = 108 VAC – 180 VAC high droop Io1 lim @ Vi = 108 VAC – 180 VAC hiccup Io1 max @ Vi = 85 VAC – 105 VAC high droop Io1 lim @ Vi = 85 VAC – 105 VAC hiccup

156.4 168.4 135.4 147.4 108.2 120.2

ADC ADC ADC ADC ADC ADC

Nominal current output 2 Io2 nom @ Vi = 85 VAC – 265 VAC, Po 12 W 1.0 1.0 ADC Current limit output 2 Io2 max @ Vi = 85 VAC – 265 VAC 1.5 ADC Static line regulation output 1 Vi min - Vi max, 50 % Io nom, Ta = 25 °C -0.5 0.5 % Vo nom Static load regulation output 1 (droop characteristic)

FNP1500-12G Vi = 230 V, 5 - 100 % Io nom

Full load to no load [0..129 A] at Vo set = 12V dVo1 over the setting range [7 to 13V]

11.64 -0.36

- 5.58 12

12.36 +0.36

mV/A VDC VDC

Static load regulation output 1 (droop characteristic)

FNP1800-12G Vi = 230 V, 5 - 100 % Io nom

Full load to no load [0..150 A] at Vo set = 12V dVo1 over the setting range [7 to 13V]

11.52 -0.48

- 5.58 12

12.36 +0.36

mV/A VDC VDC

Static load regulation output 2 (droop characteristic) Full load to no load @ Vi = 85 VAC – 265 VAC 0.4 VDC

Load change 50 % <> 100 % Io nom, dIo/dt =1A/μs Voltage deviation (droop + over- or undershoot)

FNP1500-12G & FNP1800-12G

-2 2 % Vo nom Dynamic load regulation

FNP1500-12G & FNP1800-12G

Max. recovery time to within 1% of Vo1 nom 400 μs

Difference in current between two units for Vo1 above 10 % load.

FNP1500-12G 12.9 ADC Current Share

FNP1800-12G 15 ADC

Start-up time Time required for output within regulation after initial application of AC-input (Vi nom, Io nom) after removal of inhibit (Vi nom, Io nom)

100

1.5

s

ms

Output voltage ripple and noise (Filter 10nF/10µF)

Vi nom, Io nom, 20 MHz bandwidth Vo1 Vo2

120 120

mVpp mVpp

Remote sense Total compensation for cable losses 500 mV 1 FNP1800-12G max is 12V.



FNP1500/1800 Front-Ends& FNR-3 Power Shelf Data Sheet



Nominal output voltage Vo1 Io = 16.1 A 48 VDC Nominal output voltage Vo2 Io = 0.5 A 12 VDC Output voltage set point accuracy Vi = 230 VAC, Io1 =16.1 A, TC = 25 °C

(47.8 - 48.2 VDC) -0.5 +0.5 % Vo1 nom

Output voltage trimming (via I2C or with external resistor)

Adjustable (44.16 to 51.84 VDC) -8 +8 % Vo1 nom

FNP1500-48G Io1 nom @ Vi =105 VAC – 264 VAC, Po 1.5 kW Io1 nom @ Vi = 85 VAC – 105 VAC, Po 1.2 kW

32.2 25.4

ADC ADC


FNP1800-48G Io1 nom @ Vi =180 VAC – 264 VAC, Po 1.8 kW Io1 nom @ Vi =105 VAC – 180 VAC, Po 1.5 kW Io1 nom @ Vi = 85 VAC – 105 VAC, Po 1.2 kW

39.2 32.2 25.4

39.2 ADC ADC ADC

FNP1500-48G Io1 max @ Vi = 105 VAC – 264 VAC droop hiccup Io1 max @ Vi = 85 VAC – 105 VAC droop hiccup

36.8 30

ADC ADC


FNP1800-48G Io1 max @ Vi = 180 VAC – 264 VAC droop hiccup Io1 max @ Vi = 105 VAC – 180 VAC droop hiccup Io1 max @ Vi = 85 VAC – 105 VAC droop hiccup

43.8 36.8 30

ADC ADC ADC

Nominal current output 2 Io2 nom @ Vi = 85 VAC – 264 VAC, Po 12 W 1.0 1.0 ADC Current limit output 2 Io2 max @ Vi = 85 VAC – 264 VAC 1.5 ADC Static line regulation output 1 Vi min - Vi max, 50 % Io nom -0.5 0.5 % Vo nom

FNP1500-48G Vi = 230 V, 5-100 % Io nom

Vo : full load (32.2 ADC) to no load

46.54 90.1 48

49.44

mV/A VDC


FNP1800-48G Vi = 230 V, 5-100 % Io nom


45.91 90.1 48

49.44

mV/A VDC


Vi = 230 V, 5-100 % Io nom

Vo : full load (32.2 ADC) to no load 0.4 VDC

Load change 50 % <> 100 % Io nom, dIo/dt =1 A/μs Voltage deviation (droop + over- or undershoot)

% Vo nom

FNP1500-48G -5 5 % Vo nom

FNP1800-48G -5.7 5.7 % Vo nom

Dynamic load regulation

All models Max. recovery time to within 1 % of Vo1 nom 400 μs


FNP1500-48G 3.2 ADC

Current Share

FNP1800-48G 3.9 ADC Start-up time Time required for output within regulation

after initial application of AC-input (Vi nom, Io nom) after removal of inhibit (Vi nom, Io nom)

100

1.5

s

ms

Output voltage ripple and noise (Filter 10 nF/10 µF)


480 120

mVpp mVpp

Remote sense Total compensation for cable losses 500 mV




Protection Parameter Conditions/Description Min Nom Max Unit

Input fuse Not user accessible 25A, fast blow Inrush current limitation With NTCs Output No-load -, short circuit - and overload proof

Overvoltage protection latching1 Tracking

Absolute for 48V models Absolute for 12V models

115

122 59.5 16.85

% Vo nom V V

Overtemperature protection Automatic power shutdown at TC 95 °C 1 Remove input voltage to reset.

Control Specification is valid for input voltage, load, and temperature ranges, unless otherwise stated.

Parameter Conditions/Description

Status Indication LEDs: DC OK (green), AC OK (green); fan fail and overtemperature (amber)

I2C digital bus Monitors alarm functions and sets parameters

PS present pin Contact closure to logic ground ( internal pull-down resistor of 1 kΩ)

PS remote shutdown / Inhibit pin TTL compatible signal, inhibited when open contact, high or at TTL logic “1”. Signal referenced to logic return (LRTN)

Power supply OK (I2C)1 AC OK & DC OK & no overcurrent & no overtemperature & fans working

DC current fail (I2C)1 Overcurrent on Io1

AC fail / Power down warning (I2C & OC)2

Provides a warning that the input power has failed at least 5 ms before the output fallsout of regulation (<90% Vo1 set). Open collector signal with 20 mA pull-down capability, referenced to logic return (LRTN). AC fail will go high or open during power fail condition and will go low when input is within the operating range. A Power Fail warning will turn off the green AC OK LED.

DC fail / Output voltage fault (I2C & OC)2

Internal undervoltage and overvoltage supervision of Vo1. Open collector signal with 20 mA pull-down capability, referenced to logic return (LRTN). DC fail will go high or open if Vo1 is < 90% or > 110% of Vo1 set, measured in front of theORing FETs. A green LED on the front panel indicates normal operation. The LED will flash if in parallel operation Vo1 is OK, but the unit is disabled.

Temperature warning (I2C & OC)2

I2C critical temperature warning: Indicates that the operating temperature has reached[Tshut-down – 10K] I2C & OC overtemperature warning: Indicates if the unit is in overtemperature shutdown. Open collector signal with 20 mA pull-down capability, referenced to logic return (LRTN). The OC-output will go low 100 ms before an overtemperature condition shuts down the unit. An amber LED on the front panel indicates overtemperature or fan fail.

DC voltage monitoring (I2C)1 Monitors the voltage Vo1 at the output connector. Accuracy ± 0.45 V over setting range, temperature and load.

DC current monitoring (I2C)1 Monitors the output current Io1 : Accuracy ± 0.4A over the load range.

DC voltage trimming (I2C or external resistor)1

Output voltage trimming Vo1: ± 8 % of Vo set

Setting accuracy over I2C: ± 50mV at Vo nom, ± 150 mV over setting range

Fan speed control (I2C)1 Two fan speed levels automatically set depending on the internal temperature. The fan speed can be set to full speed or automatic control.

Fan OK (I2C & OC)2 Indicates if the fans are operating or have failed.

Synch. startup pin Overcurrent signal which can be used for synchronous startup of units in parallel or to recover from an overload condition. (See application note).

1 Detailed I2C information is available from the model’s I2C Manual found on the Power-One web site. 2 Provided over the I2C interface and as an open collector signal on the output connector (OC).




Output Connector Pinning and Signal Specification Output Connector

Description Pin

Location Type Low level

High level V max I max

Overtemperature / Fan Fail U1 OC-output, protected by 16 V Zener diode and a 10 Ω

resistor in series, referenced to logic GND < 0.4 V @ 20 mA

Pull up 15 V

20 mA AC Fail / Power down warning U2 OC-output, protected by 16 V Zener diode and a 10 Ω


Pull up 15 V

20 mA

Power Supply Present U3 Resistor (1 kΩ) connected to logic GND Open Pull up

10 V 10 mA

DC Fail / Output voltage fault U4 OC-output, protected by 16 V Zener diode and a 10 Ω


Pull up 15 V

20 mA

Internal ground U5 Internal ground (Vo1– line before the output filter).

Do not connect the internal grounds in systems with several units.

ADDR0, I2C address bus T1 DIP switch or wire to internal ground,

Internally pull up to 5V (10 kΩ). Switch closed Switch open

5V



5V



5V



5V


Internally pull up to 5V (10 kΩ).

Switch closed Switch open

5V

DATA, I2C data line S1 I2C compatible signal referenced to logic GND 5 V or 3.3 V logic

CLOCK, I2C clock line S2 I2C compatible signal referenced to logic GND 5 V or 3.3 V logic

Vo2 + output S3 Auxiliary power pin, insulated from main output

Vo2 – output S4 Auxiliary ground pin, insulated from main output

Logic ground S5

Internally connected over 10 Ω to Auxiliary GND. Wire separately form Auxiliary - and main output GND to

minimize noise on signals and I2C. Leave open if not used.

Output inhibit R1 PS active when pulled low (DC-DC stage off when left open) Referenced to logic GND

< 0.8 V > 2.0 V

10 V 3.5 mA

V sense + R2 Open or connected to Vo1+ at the load (Internally connected to Vo1+ over 100 Ω)

dU < 3 Vpp30 mA

V sense - R3 Open or connected to Vo1- at the load (Internally connected to Vo1- over 100 Ω)

dU < 3 Vpp30 mA

R4 Open or connected over resistor to internal ground.

Do not connect the margin pins in systems with several units.

3 VDC 12V models

Output margin

48V models

R4

Open or connected to internal ground (+8 % Vo1) or V sense+ (-8 % Vo1)


60 VDC

R5 Open or connected to synch startup circuit, referenced to Vo1 - at the output connector

12V 3mA

12V models Synch. startup 48V models

R5 Open or connected to synch startup circuit, referenced to Vo1 - at the output connector

12V 2mA

Vo1 + output 12V models

P2, P4, P6, P8, P10, P12 Main output + pins

Vo1 – output 12V models

P1, P3, P5, P7, P9, P11 Main output – pins

Vo1 + output 48V models P2, P4, P6 Main output + pins

Vo1 – output 48V models P1, P3, P5 Main output – pins




Mechanical Data (FNP1500/1800 12V Models) Mechanical Data (H, W, D) 5.6” (141.2mm) x 1.6” (40.5mm) x 11” (279.4mm)

FNP1500/1800 12V Model Output Connector Descriptions Rear View Female Connector: FCI (51732-026 LF) Mates with:

90° output connector type: Part No. FCI (manufacturer): 51762-11202000AA LF

180° output connector type: Part No. FCI (manufacturer): 51742-11202000AA LF Locate information on availability of FCI connectors at http://www.stkcheck.com/evs/fcielectronics/fcisearch.asp Connector drawings available at: http://portal.fciconnect.com/portal/page/portal/FcicntPublic/DocSrchCustDraw IEC AC power cord with C19 connector VDE 16A: Interpower Components Ltd. 70009110250; Power-One Part No.: ZLA001-G IEC AC power cord with C19 connector UL 20A: Interpower Components Ltd. 70025110250




Mechanical Data (FNP1500/1800 48V Models) Mechanical Data (H, W, D) 5.6” (141.2mm) x 1.6” (40.5mm) x 11” (279.4mm)

FNP1500/1800 48V Model Output Connector Descriptions Rear View

Female Connector: FCI (51732-020 LF) Mates with:

90° output connector type: Part No. FCI (manufacturer): 51762-10602000AA LF; Power-One Part No.: ZES258-G

180° output connector type: Part No. FCI (manufacturer): 51742-10602000AA LF Locate information on availability of FCI connectors at http://www.stkcheck.com/evs/fcielectronics/fcisearch.asp Connector drawings available at: http://portal.fciconnect.com/portal/page/portal/FcicntPublic/DocSrchCustDraw IEC AC power cord with C19 connector VDE 16A: Interpower Components Ltd. 70009110250; Power-One Part No.: ZLA001-G IEC AC power cord with C19 connector UL 20A: Interpower Components Ltd. 70025110250




Paralleling Front-Ends: For parallel use in minimal configuration systems, only the inhibit pins must be shorted to logic GND. All other pins can be left open. The power supplies will share the output current automatically (droop current share). For parallel applications without I2C bus, but the use of all other features, it is recommended to connect all logic GND’s on a backplane together, to connect all Vo2 -, all V o2 + and to leave the internal GND’s open. The sense wires can be left open or connected to a common load point, the synch-start pin can be left open or connected to a synch-start circuit, the inhibit pins can be connected together or used individually. All I2C signals (T1-T5, S1, and S2) can be left open.

Use of a small foil capacitor > 3µF directly at the power outputs of each unit is recommended in order to prevent voltage drops at the hot plug. For additional information on paralleling see the following Rack (Power Shelf) section.

Racks (FNR-3-12G and FNR-3-48G Power Shelves) Each rack (power shelf) is 1U high with backplane and designed for up to three front-end models in parallel or in n+1 operation. Each power shelf has: • Massive copper bus bars for low-loss current distribution. • Output terminals with two M4-screws on each power tab. • Two fast-on contacts for system earthing. • Address coding over five pole DIP switch on each unit, 37-pin D-Sub connector with I2C-lines, monitoring signals and


FNR-3-12G and FNR-3-48G Power Shelf Front View

Overall Mechanical Dimensions (FNR-3-12G and FNR-3-48G Power Shelves)

FNR-3 Mechanical Data (W, H, D) 17.7” (449.6 mm) x 1.7” (43.1 mm) x 13” (330.2 mm)




Output Connector Descriptions (FNR-3-12G and FNR-3-48G)

Location Description A 5-Bit DIP switch for I2C addressing of PSU 1 B Earth connection C Earth connection D Earth connection E Output 1 minus F Output 1 plus G 5-Bit DIP switch for I2C addressing of PSU 2 H 37-pin SUB-D connector, controlling and auxiliary power (output 2) I 5-Bit DIP switch for I2C addressing of PSU 3

A B C D E F G H

I




SUB-D Output Connector Pinout and Signal Specification Output Connector

Description Pin



Overtemperature / Fan Fail PSU1 1 OC-output, protected by 16 V Zener diode

and a 10 Ω resistor in series, referenced to logic GND <0.4 V @ 20 mA

Pull up 15 V

20 mA Power Supply Present PSU 1 2 Resistor (1 kΩ) connected to logic GND Open

Pull up 10 V


Pull up 10 V

10 mA

Open 4

Overtemperature / Fan Fail PSU 3 5 OC-output, protected by 16 V Zener diode


Pull up 15 V

20 mA AC Fail / Power down warning PSU 3 6 OC-output, protected by 16 V Zener diode


Pull up 15 V


Pull up 10 V

10 mA DC Fail / Output voltage fault PSU 3 8 OC-output, protected by 16 V Zener diode


Pull up 15 V

20 mA Overtemperature / Fan Fail PSU 2 9 OC-output, protected by 16 V Zener diode


Pull up 15 V

20 mA

Synch._Start_A 10

Sync_start_A , Active high

The signals of several racks can be connected together in such a way that all supplies will be inhibited until the last supply has recovered from its overcurrent condition, referenced to logic GND

<7V off < 9V

15V 10mA

Open 11

Output inhibit PSU 1-3

12 Active low (DC-DC stage off when pin is open or on

high potential) Referenced to logic GND

<0.8 V >2.0 V

10 V 3.5 mA

V sense + 13 Open or connected to Vo1+ at the load Internally (PSU) connected to Vo1+ over 100 Ω

dU < 3 Vpp

30 mA

V sense - 14 Open or connected to Vo1- at the load Internally (PSU) connected to Vo1- over 100 Ω

dU < 3 Vpp

30 mA Open 15

NC 16

NC 17

NC 18

NC 19

AC Fail/ Power-down warning PSU 1 20 OC-output, protected by 16 V Zener diode


Pull up 15 V

20 mA DC Fail/ Output voltage fault PSU 1 21 OC-output, protected by 16 V Zener diode


Pull up 15 V

20 mA AC Fail/ Power-down warning PSU 2 22 OC-output, protected by 16 V Zener diode


Pull up 15 V



Pull up 15 V

20 mA

DATA, I2C data line 24 I2C compatible signal referenced to logic GND 5 V or 3.3 V logic




SUB-D Output Connector Pinout and Signal Specification (Continued)


Pin Location

Type Low level High level

V max I max

CLOCK, I2C clock line 25 I2C compatible signal referenced to logic GND 5 V or 3.3 V logic

Auxiliary power +12 V (Output 2) 26 Vo2+ Aux output, insulated from main output

Auxiliary power ground (Output 2) 27 Vo2- Aux output, insulated from main output

Logic Gnd 28

Internally connected over 10 Ω to Vo2-, Auxiliary GND. Wire separately from auxiliary and main output GND to minimize noise and avoid voltage drops on signal- and I2C return. Leave open if not used.

Output margin PSU 1 29 Open or connected to V sense-

V sense- (+8 % Vo1) or V sense+ (-8 % Vo1) 60V





NC 32

NC 33

NC 34

NC 35

NC 36

NC 37

Synchronized start-up circuit for paralleling operation Because of hiccup overcurrent protection, when a supply reaches an overcurrent limit, the output voltage will immediately turn OFF and after a delay turn ON again. In parallel use, all power supplies have to start synchronized because of the internal hiccup behavior. Otherwise, the supply which has reached overcurrent first will go to hiccup; this will overload the other supplies, which then will also go to hiccup. When the first supply has recovered from hiccup (hiccup dead time), the others remain in hiccup. This will immediately drive the first one into hiccup once again. This means that without a start-up circuit, a system with several power supplies can never recover from an overload condition or start-up into full load. The following additional circuit, required to reach synchronized startup, is already implemented inside the FNR-3-12G and FNR-3-48G shelves.




Synch Start-up Connection Between Shelves The following connection between the shelves is required to achieve a parallel operation. The synch-start circuits inside the shelves inhibit all power supplies until the last one has recovered from its overcurrent condition and then synchronize the restart of the outputs.

Synch Start-up Circuit Description

Description Pin Location, Definition


V max I max

Auxiliary power +12 V (Output 2)

26 Vo2+, Aux output, insulated from main output

Logic ground 28

Logic_GND ,Internally connected over 10 Ω to Vo2-, ( Auxiliary power ground (Output 2))

Output inhibit_A PSU 1-3

12 Inhibit_A ,Active low (DC-DC stage off) Referenced to Logic_GND

<0.8 V >2.0 V

10 V 3.5 mA

Synch. Startup 1

PSU 1-3

R5 (at PSU)

The synch_start pin is connected to the overcurrent signal of the PSU1-3. In the case of an overcurrent shutdown, this

signal goes high. Referenced to Vo1-

<7V off > 9V

15V 10mA

Synch. Startup_A Rack FNR-3-12G & Rack FNR-3-48G 1-N Pin on the D-Sub connector on the backplane

10


The signals of several racks can be connected together in such a way that all

supplies will be inhibited until the last supply has recovered from its

overcurrent condition. Referenced to Logic_GND

NOTE: The Sync-Start pins can be wired together only if the power supplies are connected with a minimal voltage drop on power ground as achieved on a backplane with massive copper bus bars. If there is a less ideal connection, it is recommended to use an opto-coupler for each unit (IC1, D3, D2).




Mechanical Data (FNR-3-12G and FNR-3-48G Power Shelves)




Fulcrum: The handle has been designed to allow easy plug-in and -out in a rack system. The handle (lever) fits into a counter piece (fulcrum) which is fixed to the bottom of the rack. During the plug, the fulcrum holds the unit down and guides it towards the output connector. The Power-One part number of the fulcrum and its associated mounting accessories is: HZZ01223. Individual fulcrum sets can be also ordered: Power-One part no.: HZZ01223. Note: Each HZZ01223 set contain 2 fulcrums, 2 supports, and mounting accessories.

I2C to USB Interface HZZ02002G:

I2C Management Software: All FNP front-ends can be controlled via Power-One's GUI-driven I2C Management software and an I2C-to-USB interface (P/N HZZ02002G). An I2C Programming Manual describes the complete range of parameters that can be programmed to the FNP1500/1800 front-ends. This manual is available by searching on "FNP1500" at www.power-one.com.





BCD20015-G REV. AA Page 1 of 6 www.power-one.com

FNP300 AC-DC Power Supply Data Sheet12V, 24V, 48V Output, 300 Watts


Features • RoHS lead free solder and lead solder exempted

products are available • Wide input voltage range 85-264 VAC • Two outputs (one high current output) • Low conducted and radiated EMI

(EN 55022 class B) • UL recognized to UL 60950/CSA 22.2 No. 60950-00,

and TUV approved to EN 60950-1 • High density design

4” x 1.65” x 8.5” cassette • Highly-efficient topology • I2C interface • Overtemperature, output overvoltage, and output

overcurrent protection • Supervisory signaling • Included ORing diode for true redundant operation

Description The FNP300 Series provides highly-efficient ac-dc power supplies, each with one high current output and an additional standby output, which can be used in a wide range of applications. Passive current share along with internal ORing diodes allow the FNP300's to be also used in redundant, hot-swap applications. All models meet international safety standards and display the CE Mark for the low Voltage Directive.

Model Selection Output 1 Output 2 Model Input Voltage

VAC Vo nom VDC

Io max ADC

Vo nom VDC

Io max ADC

Rated PowerW

FNP300-1012 85-264 12 25 12 0.7 310 FNP300-1024 85-264 24 12.5 12 0.7 310 FNP300-1048 85-264 48 6.25 12 0.7 310


Options Suffixes to Add to Part Number RoHS lead solder exemption No RoHS character required. RoHS compliant for all 6 substances Add "G" as the last character of the part number.




Absolute Maximum Ratings Stresses in excess of the absolute maximum ratings may cause performance degradation, adversely effect long-term reliability, and cause permanent damage to the converter.

Parameter Conditions/Description Min Max Units Input Voltage Continuous

Transient, 60 ms 264

300 VAC VAC

Operating Temperature Ambient Vi min-Vi max, Io nom, cooling by internal fan

0 55 °C

Storage Temperature Non-operational -40 85 °C

Environmental, Mechanical, & Reliability Specifications All specifications apply over specified input voltage, output load, and temperature range, unless otherwise noted.

Parameter Conditions/Description Min Nom Max Units Operating Humidity Relative humidity, non-condensing 10 90 % Storage Humidity Relative humidity, non-condensing 5 95 %

Shock IEC/EN 60068-2-27, 11 ms 30 gn Sinusoidal Vibration IEC/EN 60068-2-6

2-8 Hz 8-200 Hz

200-500 Hz

7.5 2 4

mil gn gn

MTBF MIL-HDBK-217F Notice 2, GB, 25 °C 200 kh

Isolation Specifications The electric strength test is performed in the factory as routine test in accordance with EN 550116, IEC/EN 60950, and UL 1950 and should not be repeated in the field. Power-One will not honor any warranty claims resulting from electric strength field tests.

Parameter Conditions/Description Min Nom Max Units Insulation Safety Rating Input/Case

Input/Output Output/Case


Electric Strength Test Voltage Input/Case Input/Output Output/Case

2.121 4.2 0.5

kVDCkVDC kVDC

EMC Specifications All specifications apply over specified input voltage, output load, and temperature range, unless otherwise noted.

Parameter Description Criterion Electrostatic Discharge IEC/EN 61000-4-2, level 4 (contact/air) 8/15 kV, criterion B Electromagnetic Field IEC/EN 61000-4-3, level 3 10 V/m, criterion A

Eletr. Fast Transients / Burst IEC/EN 61000-4-4, level 4 (direct/capacitive) 2/1 kV, criterion B Surge IEC/EN 61000-4-5, level 3 (L/L, L/C) 1/2 kV, criterion B

Voltage Dips and Interruptions IEC/EN 61000-4-11 Criterion B RF Conducted Immunity IEC/EN 61000-4-6 10 VAC, AM 80%, 1 kHz,

criterion A Emissions Radiated/Conducted CISPR 22/EN 55022/EN 61204 Class B

Harmonics IEC/EN 61000-3-2 Class B Voltage Fluctuation and Flicker IEC/EN 61000-3-3 Pass




Input Specifications All specifications apply over specified input voltage, output load, and temperature range, unless otherwise noted.

Parameter Conditions/Description Min Nom Max Units Input Voltage 85 115/230 264 VAC

Turn-On Input Voltage Ramping up 70 - 85 VAC Turn-Off Input Voltage Ramping down 70 - 85 VAC

Input Frequency 47 50/60 63 Hz Inrush Current Limitation 115/230 VAC 15/20 A

Power Factor Vi nom, Io nom 0.96 Efficiency Vi = 230 VAC, Io nom FNP300-1012

FNP300-1024 FNP300-1048

83 86 88

%

Output Specifications All specifications apply over specified input voltage, output load, and temperature range unless otherwise noted.

Parameter Conditions/Description Min Nom Max Units Output Voltage Setpoint Accuracy

FNP300-1012 Vi = 230 VAC, Io1 @ 12.5 ADC, TC = 25 °C -0.5 0.5. % Vo nom

Output Voltage Setpoint Accuracy FNP300-1024

Vi = 230 VAC, Io1 @ 3.125 ADC, TC = 25 °C -0.5 0.5. % Vo nom

Output Voltage Setpoint Accuracy FNP300-1048

Vi = 230 VAC, Io1 @ 12.5 ADC, TC = 25 °C -0.5 0.5. % Vo nom

Output Current V1 Output Current V2

FNP300-1012 FNP300-1012

0 0

25 0.7

25 0.7

ADC ADC


FNP300-1024 FNP300-1024

0 0

12.5 0.7

12.750.7

ADC ADC


FNP300-1048 FNP300-1048

0 0

6.25 0.7

6.4 0.7

ADC ADC

Static Line Regulation V1 Vi min-Vi max, Vi nom, 5-100% Io nom -0.5 0.5 % Vo nom

Static Load Regulation V1 (Droop Characteristic)

Vi min-Vi max, Vi nom, 5-100% Io nom -5 5 % Vo nom

Hold-Up Time Starting at Vi = 230 VAC, Po nom 20 ms Dynamic Load Regulation Load change = ±33%, dIo/dt = 2A/μs

voltage deviation recovery time

-2

2

400

% Vo nom

μs Start-Up Time Vi nom, Io nom 1 s

Output Voltage Ripple and Noise Vi nom, Io nom, 20 MHz bandwidth 120 mVpp




Protection All specifications apply over specified input voltage, output load, and temperature range, unless otherwise noted.

Parameter Conditions/Description Min Nom Max Units Input Fuse Not user accessible 6.3AT

Input Transient Protection With varistor Output No-load and short circuit proof

short circuit proof overload (latch style)

110

130

% Io nom% Io nom% Io nom

Overvoltage Protection Latch style FNP300-1012Latch style FNP300-1024Latch style FNP300-1048

115 115 115

130 130 122

% Vo nom% Vo no% Vo no

Overtemperature Protection Automatic power shutdown at TC = 95 °C

Control All specifications apply over specified input voltage, output load, and temperature range, unless otherwise noted.

Parameter Conditions/Description I2C Digital Bus Reports information and monitors alarm functions

PS Seated Signal Contact closure to GND PS Remote Shutdown TTL compatible signal, open collector. Power supply enabled at Low or TTL "0"

(e.g. by connecting of pin 22 to 0V or GND), and inhibited to latching mode** at High or TTL "1", or leave it open.

AC fail pre-warning (I2C & OC)* Supervisory AC input voltage; Pre-warning time >6 ms

DC fail (I2C & OC)* Supervisory under- and overvoltage pre-ORing diode of V1 Temperature Warning (I2C & OC)* Indicates if unit is operating normally or in overtemperature,

Pre-warning time >10 ms Fan OK (I2C & OC)* Indicates if fan is operating or has failed

Current Share Droop load characteristic for V1 and V2 Status Indication LEDs: DC OK (green), AC OK (green)

* Signal provided by I2C interface or by open collector (OC) ** (1) Standard FNP300 models (without "H" at the end of part number) have latching inhibit function, i.e., once PSU is inhibited, it needs input power re-cycle to allow using enable state again. (2) FNP300 variants marked with "H" character do have non-latching inhibit function so there's no need to re-cycle input power when enabling unit after inhibit state.

Features All specifications apply over specified input voltage, output load, and temperature range, unless otherwise noted.

Parameter Conditions/Description Fan speed control 4 fan speed levels depending on inlet temperature

Fan speed level and temperature information available on I2C digital bus µC supply voltage in-/output

(Pin 10) If unit is operating: 5 to 7V is provided at pin 10.

If unit is NOT operating, pin 10 is input from a parallel connected unit for µC supply.




Characteristic Curves:

Figure 1. Efficiency vs. Output Load

Figure 2. Efficiency vs. Input Voltage and Ambient Temperature, Io = Io nom




Mechanical Data Mechanical Data (H, W, D) 4” (101.6mm) x 1.65” (41.9mm) x 8.5” (215.9mm)

Weight: 2.205 lb (1 kg)


PIN 1

PIN 13

Rear View Connector: Molex (15-06-0241)


Pin Location

Reference Name

12V Output 24V Output 48V Output

4,5,6,16,17,184,5,6,16,17,184,5,6,16,17,18

Vo1 Vo1 Vo1

12V Output RTN 24V Output RTN 48V Output RTN

1,2,3,13,14,151,2,3,13,14,151,2,3,13,14,15

Vo1 RTN Vo1 RTN Vo1 RTN

AC-fail, DC-fail, Temp.-fail 9 PS_FAIL Power Supply Present

Signal 23 PS_PRSNT_L

Serial Data Line 11 SDA Serial Clock Line 12 SCL

Address Input Line A0 21 AO Address Input Line A1 20 A1

5 to 7V 10 µC supply voltage bus FAN OK 24 FAN_FAIL

PS Remote Shut Down 22 PS_RSD_H 12V Standby RTN 7 Vo2 RTN / Logic

Ground / 5 to 7V RTN 12V Standby 19 Vo2

Address Input Line A2 8 A2 NUCLEAR AND MEDICAL APPLICATIONS - Power-One products are not designed, intended for use in, or authorized for use as critical components in life support systems, equipment used in hazardous environments, or nuclear control systems without the express written consent of the respective divisional president of Power-One, Inc.


AIRF

LOW


MCD10075 Rev. 1.1, 29-Aug-08 Page 1 of 15 www.power-one.com

FXP1500/1800 Front-Ends& FXR-3 Power Shelves Data Sheet

Applications • Telecommunications • Data communications • Servers • Distributed power

Features • RoHS compliant for all six substances • High density front-ends 15.2 to 18.3 W/in3 • Wide input voltage range 85 to 264 VAC • 12 V standby voltage, 1A per front-end • Highly efficient topology reduces operating costs • I2C interface status and control • I2C voltage and current limit setting • Analog output voltage setting • Overtemperature, output overvoltage, and output overcurrent protection • ORing circuits for true redundant operation: Vo1: ORing FETs; Vo2: ORing Diodes • Status LEDs: AC OK, DC OK, and Fan Fail/Overtemperature Fail

Description The FXP1500/1800 front-ends are power-factor-corrected (PFC) and provide a 48 VDC (1500 or 1800 watt) output, and can be used in hot-swap redundant systems. Their very small dimensions allow configuration of up to three units in a 1U rack. The FXP front-ends have a rear-mounted AC connector. The highly efficient thermal design with internal-fan cooling permits their use over wide temperature ranges and provides very high reliability.

Status information is provided with front panel LEDs, logic signals, and via an I2C management interface. In addition, the I2C bus can enable the power supply, set high fan speed, adjust the output voltage, and set the output current limit. The FXP1500/1800's meet international safety standards and display the CE-Mark for the European Low Voltage Directive (LVD).

FXR-3-48G power-shelf solutions provide rectification, system management, and power distribution, while maintaining high reliability and offering flexibility for future expansion. The power shelves can be configured with up to three hot-swappable 1500 or 1800-watt AC-DC front-ends.

FXR-3 Power Shelf

The FXR-3-48G shelf provides up to 5400 watts in a 19" rack. (See the Rack section for power shelf details.)

FXP1500/1800 front-ends have a backplane-mounted AC input.




Model Selection Output 1 Output 2

Model Input voltage

VAC auto selected 1

Vo1 nom VDC

Io1 max ADC

Vo2 nom VDC

Io2 max ADC

Rated powerW

Compatible Shelf 2

FXP1500-48G 105 – 264 85 – 105

48 48

32.2 25.4

12 12

1 1

1512 1212 FXR-3-48G

FXP1800-48G 180 – 264 105 – 180 85 – 105

48 48 48

39.2 32.2 25.4

12 12 12

1 1 1

1812 1512 1212

FXR-3-48G

1 The available output power is automatically adjusted depending on the input voltage. 2 1U standard racks are available from Power-One. See the Rack (Power Shelf) section of this data sheet for configurations and details.


Parameter Conditions/Description Min Max Unit

Input voltage Continuous Transient, 60 ms max.

264 300

VAC VAC

Operating ambient temperature Vi min-Vi max, Io nom, cooling by internal fan @ 100 % load @ 50 % load

0 0

50 70

°C °C

Storage temperature Non-Operating -40 85 °C



10 k 40 k

ASL Ft. ASL Ft.


Temperature coefficient 0 °C to 70 °C (after 15 min warm-up) 0.02 %/K Shock IEC/EN 60068-2-27, 11 ms 40 gpk Sinusoidal vibration IEC/EN 60068-2-6

2-8 Hz 8-200 Hz

200-500 Hz

7.5 2 4

mil gpk gpk

Random vibration 10-2000 Hz 6.15 grms MTBF Calculated per Bellcore (SR-332, Issue 1):

GB 25 °C GB 25 °C (FNP1500-12G)

Demonstrated

230 TBD 250

kh kh kh




Safety Specifications Maximum electric strength testing is performed in the factory according to EN 550116, IEC/EN 60950, and UL 60950. Input-to-output electric strength tests should not be repeated in the field. Power-One will not honor any warranty claims resulting from electric strength field tests.


Agency approvals UL60950, (UL) CSA 60950 (cUL), EN 60950(TÜV), CE Mark for LVD

Insulation safety rating Input to case Input to output Output to case




2.12 4.2 1

0.5 0.1

kVDCkVDC kVDCkVDC

1 Subassemblies are pre-tested with 4.2 kVDC in accordance with EN50116 and IEC/EN60950.

EMC Specifications Parameter Description Criterion

Electrostatic discharge IEC/EN 61000-4-2, level 4 Performance criterion B Electromagnetic field IEC/EN 61000-4-3, level 3 Performance criterion A Electrical fast transients/burst IEC/EN 61000-4-4, level 3 Performance criterion B Surge IEC/EN 61000-4-5, level 3 Performance criterion B Voltage dips and interruptions IEC/EN 61000-4-11 Performance criterion B or better RF conducted immunity IEC/EN 61000-4-6 10 VAC, AM 80 %, 1 kHz

Performance criterion A Emissions conducted CISPR 22/EN 55022/EN 61204 Class B Emissions radiated CISPR 22/EN 55022/EN 61204 Class A Harmonics IEC/EN 61000-3-2 Class B Voltage fluctuation and flicker IEC/EN 61000-3-3 Pass Voltage sag SEMI F47-0200 (High Line 230V) Pass

Input Specifications Specification is valid for input voltage, load, and temperature ranges, unless otherwise stated.


Input voltage 85 230 264 VAC Input frequency 47 50/60 63 Hz Turn-on input voltage Ramping up 79 - 85 VAC Turn-off input voltage Ramping down 70 - 78 VAC Inrush current limitation 115/230 VAC acc. ETS 300 132-1

< 100 ms 50

Apk

Hold-up time After last AC line peak ,Vi = 230 VAC, Po nom 20 ms Power factor Vi nom, Io nom 0.95 W/VA Efficiency Vi = 230 VAC, Io nom, TC = 25 °C 89 90 % Max input current 20 Arms Input connector 16A – 20 A / 250 VAC; according to IEC320 C19

Input Connector Description (FXP1500/1800)

Protection Earth P1 PE Phase P2 L Neutral P3 N






Nominal output voltage Vo1 Io = 16.1 A 48 VDC Nominal output voltage Vo2 Io = 0.5 A 12 VDC Output voltage set point accuracy Vi = 230 VAC, Io1 =16.1 A, TC = 25 °C

(47.8 - 48.2 VDC) -0.5 +0.5 % Vo1 nom

Output voltage trimming (via I2C or with external resistor)

Adjustable (44.16 to 51.84 VDC) -8 +8 % Vo1 nom

FXP1500-48G Io1 nom @ Vi =105 VAC – 264 VAC, Po 1.5 kW Io1 nom @ Vi = 85 VAC – 105 VAC, Po 1.2 kW

32.2 25.4

ADC ADC


FXP1800-48G Io1 nom @ Vi =180 VAC – 264 VAC, Po 1.8 kW Io1 nom @ Vi =105 VAC – 180 VAC, Po 1.5 kW Io1 nom @ Vi = 85 VAC – 105 VAC, Po 1.2 kW

39.2 32.2 25.4

39.2 ADC ADC ADC

FXP1500-48G Io1 max @ Vi = 105 VAC – 264 VAC droop hiccup Io1 max @ Vi = 85 VAC – 105 VAC droop hiccup

36.8 30

ADC ADC


FXP1800-48G Io1 max @ Vi = 180 VAC – 264 VAC droop hiccup Io1 max @ Vi = 105 VAC – 180 VAC droop hiccup Io1 max @ Vi = 85 VAC – 105 VAC droop hiccup

43.8 36.8 30

ADC ADC ADC

Nominal current output 2 Io2 nom @ Vi = 85 VAC – 264 VAC, Po 12 W 1.0 1.0 ADC Current limit output 2 Io2 max @ Vi = 85 VAC – 264 VAC 1.5 ADC Static line regulation output 1 Vi min - Vi max, 50 % Io nom -0.5 0.5 % Vo nom

FXP1500-48G Vi = 230 V, 5-100 % Io nom


46.65 83.5 48

49.34

mV/A VDC


FXP1800-48G Vi = 230 V, 5-100 % Io nom


46.07 83.5 48

49.34

mV/A VDC


Vi = 230 V, 5-100 % Io nom

Vo : full load (32.2 ADC) to no load 0.4 VDC

Load change 50 % <> 100 % Io nom, dIo/dt =1 A/μs Voltage deviation (droop + over- or undershoot)

% Vo nom

FXP1500-48G -5 5 % Vo nom

FXP1800-48G -5.7 5.7 % Vo nom

Dynamic load regulation

All models Max. recovery time to within 1 % of Vo1 nom 400 μs


FXP1500-48G 3.2 ADC

Current Share

FXP1800-48G 3.9 ADC Start-up time Time required for output within regulation

after initial application of AC-input (Vi nom, Io nom) after removal of inhibit (Vi nom, Io nom)

100

1.5

s

ms

Output voltage ripple and noise (Filter 10 nF/10 µF)


480 120

mVpp mVpp

Remote sense Total compensation for cable losses 500 mV




Protection Parameter Conditions/Description Min Nom Max Unit

Input fuse Not user accessible 25A, fast blow Inrush current limitation With NTCs Output No-load -, short circuit - and overload proof

Overvoltage protection latching1 Tracking Absolute

115

122 59.5

% Vo nom

V

Overtemperature protection Automatic power shutdown at TC 95 °C 1 Remove input voltage to reset.


Parameter Conditions/Description

Status Indication LEDs: DC OK (green), AC OK (green); fan fail and overtemperature (amber) I2C digital bus Monitors alarm functions and sets parameters PS present pin Contact closure to logic ground ( internal pull-down resistor of 1 kΩ)

PS remote shutdown / Inhibit pin TTL compatible signal, inhibited when open contact, high or at TTL logic “1”. Signal referenced to logic return (LRTN)

Power supply OK (I2C)1 AC OK & DC OK & no overcurrent & no overtemperature & fans working DC current fail (I2C)1 Overcurrent on Io1

AC fail / Power down warning (I2C & OC)2

Provides a warning that the input power has failed at least 5 ms before the output falls out of regulation (<90% Vo1 set). Open collector signal with 20 mA pull-down capability, referenced to logic return (LRTN). AC fail will go high or open during power fail condition and will go low when input is within the operating range. A Power Fail warning will turn off the green AC OK LED.

DC fail / Output voltage fault (I2C & OC)2

Internal undervoltage and overvoltage supervision of Vo1. Open collector signal with 20 mA pull-down capability, referenced to logic return (LRTN). DC fail will go high or open if Vo1 is < 90% or > 110% of Vo1 set, measured in front of theORing FETs. A green LED on the front panel indicates normal operation. The LED will flash if in parallel operation Vo1 is OK, but the unit is disabled.

Temperature warning (I2C & OC)2

I2C critical temperature warning: Indicates that the operating temperature has reached [Tshut-down – 10K] I2C & OC overtemperature warning: Indicates if the unit is in overtemperature shutdown. Open collector signal with 20 mA pull-down capability, referenced to logic return (LRTN). The OC-output will go low 100 ms before an overtemperature condition shuts down the unit. An amber LED on the front panel indicates overtemperature or fan fail.

DC voltage monitoring (I2C)1 Monitors the voltage Vo1 at the output connector. Accuracy ± 0.45 V over setting range, temperature and load.

DC current monitoring (I2C)1 Monitors the output current Io1 : Accuracy ± 0.4A over the load range.

DC voltage trimming (I2C or external resistor)1

Output voltage trimming Vo1: ± 8 % of Vo set

Setting accuracy over I2C: ± 50mV at Vo nom, ± 150 mV over setting range

Fan speed control (I2C)1 Two fan speed levels automatically set depending on the internal temperature. The fan speed can be set to full speed or automatic control.

Fan OK (I2C & OC)2 Indicates if the fans are operating or have failed.

Synch. startup pin Overcurrent signal which can be used for synchronous startup of units in parallel or to recover from an overload condition. (See application note).

1 Detailed I2C information is available from the model’s I2C Manual found on the Power-One web site. 2 Provided over the I2C interface and as an open collector signal on the output connector (OC).




Output Connector Pinning and Signal Specification (48V Models) Output Connector

Description Pin



Overtemperature / Fan Fail U1 OC-output, protected by 16 V Zener diode and a 10 Ω

resistor in series, referenced to logic GND <0.4 V @ 20 mA

Pull up 15 V

20 mA AC Fail / Power down warning U2 OC-output, protected by 16 V Zener diode and a 10 Ω


Pull up 15 V

20 mA

Power Supply Present U3 Resistor (1 kΩ) connected to logic GND Open Pull up

10 V 10 mA

DC Fail / Output voltage fault U4 OC-output, protected by 16 V Zener diode and a 10 Ω


Pull up 15 V

20 mA

Internal ground U5 Internal ground (Vo1– line before the output filter).

Do not connect the internal grounds in systems with several units.



5V



5V



5V



5V



5V

DATA, I2C data line S1 I2C compatible signal referenced to logic GND 5 V or 3.3 V logic

CLOCK, I2C clock line S2 I2C compatible signal referenced to logic GND 5 V or 3.3 V logic

Auxiliary power +12 V S3 Vo2+ output, insulated from main output

Auxiliary power ground S4 Vo2 - output, insulated from main output

Logic ground S5

Internally connected over 10 Ω to Auxiliary GND. Wire separately form Auxiliary - and main output GND to minimize noise on signals and I2C. Leave open if not

used.

Output inhibit R1 PS active when pulled low

(DC-DC stage off when left open) Referenced to logic GND

<0.8 V >2.0 V

10 V 3.5 mA

V sense + R2 Open or connected to Vo1+ at the load (Internally connected to Vo1+ over 100 Ω)

dV < 3 Vpp

30 mA

V sense - R3 Open or connected to Vo1- at the load (Internally connected to Vo1- over 100 Ω)

dV < 3 Vpp

30 mA

Output margin R4

Open or connected to internal ground (+8 % Vo1) or V sense+ (-8 % Vo1)


60V

Synch. Startup R5 Open or connected to synch startup circuit, referenced to Vo1 - at the output connector

12V 2mA

Vo1 - P1, P3, P5 Main output – pins

Vo1 + P2, P4, P6 Main output + pins




Mechanical Data (FXP1500/1800 48V Models) Mechanical Data (H, W, D) 5.6” (141.2mm) x 1.6” (40.5mm) x 12” (304.8mm)

FXP1500/1800 48V Model Output Connector Descriptions Rear View Female Connector: FCI (51732-020 LF) Input Connector: FCI (51939-126 LF) Mates With:

90° output connector type: Part No. FCI (manufacturer): 51762-10602000AALF; Power-One Part No.: ZES258-G

180°output connector type: Part No. FCI (manufacturer): 51742-10602000AA LF

90° input connector type: Part No. FCI (manufacturer): 51915-056 LF

180° input connector type: Part No. FCI (manufacturer): 51940-099 LF Locate information on availability of FCI connectors at http://www.stkcheck.com/evs/fcielectronics/fcisearch.asp Connector drawings available at: http://portal.fciconnect.com/portal/page/portal/FcicntPublic/DocSrchCustDraw




Paralleling Front-Ends: For parallel use in minimal configuration systems, only the inhibit pins must be shorted to logic GND. All other pins can be left open. The power supplies will share the output current automatically (droop current share). For parallel applications without I2C bus, but the use of all other features, it is recommended to connect all logic GND’s on a backplane together, to connect all Vo2 -, all V o2 + and to leave the internal GND’s open. The sense wires can be left open or connected to a common load point, the synch-start pin can be left open or connected to a synch-start circuit, the inhibit pins can be connected together or used individually. All I2C signals (T1-T5, S1, and S2) can be left open.

Use of a small foil capacitor > 3µF directly at the power outputs of each unit is recommended in order to prevent voltage drops at the hot plug. For additional information on paralleling see the following Rack (Power Shelf) section.

Racks (FXR-3-48G Power Shelves) Each rack (power shelf) is 1U high with backplane and designed for up to three front-end models in parallel or in n+1 operation. Each power shelf has: • Massive copper bus bars for low-loss current distribution. • Output terminals with two M4-screws on each power tab. • Two fast-on contacts for system earthing. • Address coding over five pole DIP switch on each unit, 37-pin D-Sub connector with I2C-lines, monitoring signals and


FXR-3-48G Power Shelf Front View Overall Mechanical Dimensions (FXR-3-48 Power Shelves)

FXR-3 Mechanical Data (W, H, D) 17.7” (449.6 mm) x 1.7” (43.1 mm) x 14” (355.6 mm)




Output Connector Descriptions (FXR-3-48G)

Location Description A Earth connection B 5-bit DIP switch for I2C addressing of PSU #3 C Mains connector of PSU #3 D Output 1 Minus E Output 1 Plus F 5-bit DIP switch for I2C addressing of PSU #2 G Mains connector of PSU #2 H 37-pin SUB-D connector, control, sense, check and Auxiliary power (Output 2) I 5-bit DIP switch for I2C addressing of PSU #1 J Mains connector of PSU #1

L3 N3

PE3

L2 N2

PE2

L1 N1

PE1

A B C D E F G H I J




SUB-D Output Connector Pinout and Signal Specification Output Connector

Description Pin





Pull up 15 V


Pull up 10 V


Pull up 10 V

10 mA

Open 4



Pull up 15 V



Pull up 15 V


Pull up 10 V



Pull up 15 V



Pull up 15 V

20 mA

Synch._Start_A 10


The signals of several racks can be connected together in such a way that all supplies will be inhibited until the last supply has recovered from its overcurrent condition, referenced to logic GND

<7V off < 9V

15V 10mA

Open 11




<0.8 V >2.0 V

10 V 3.5 mA


dU < 3 Vpp

30 mA


dU < 3 Vpp

30 mA Open 15

NC 16

NC 17

NC 18

NC 19



Pull up 15 V



Pull up 15 V



Pull up 15 V



Pull up 15 V

20 mA

DATA, I2C data line 24 I2C compatible signal referenced to logic GND 5 V or 3.3 V logic






Pin Location


V max I max

CLOCK, I2C clock line 25 I2C compatible signal referenced to logic GND 5 V or 3.3 V logic

Auxiliary power +12 V (Output 2) 26 Vo2+ Aux output, insulated from main output

Auxiliary power ground (Output 2) 27 Vo2- Aux output, insulated from main output

Logic Gnd 28

Internally connected over 10 Ω to Vo2-, Auxillary GND. Wire separately from auxiliary and main output GND to minimize noise and avoid voltage drops on signal- and I2C return. Leave open if not used.


V sense- (+8 % Vo1) or V sense+ (-8 % Vo1)

60V



60V



60V

NC 32

NC 33

NC 34

NC 35

NC 36

NC 37

Synchronized start-up circuit for paralleling operation The FXP1500-48G and FXP1800-48G power supplies exhibit an overcurrent hiccup behavior. This means if either of these supplies reaches an overcurrent limit, the output voltage will immediately turn OFF and after a delay turn ON again. In parallel use, all power supplies have to start synchronized because of the internal hiccup behavior. Otherwise, the supply which has reached overcurrent first will go to hiccup; this will overload the other supplies, which then will also go to hiccup. When the first supply has recovered from hiccup (hiccup dead time), the others remain in hiccup. This will immediately drive the first one into hiccup once again. This means that without a start-up circuit, a system with several power supplies can never recover from an overload condition or start-up into full load. The following additional circuit, required to reach synchronized startup, is already implemented inside the FXR-3-48G shelf.




Synch Start-up Connection Between Shelves The following connection between the shelves is required to achieve a parallel operation. The synch-start circuits inside the shelves inhibit all power supplies until the last one has recovered from its overcurrent condition and then synchronize the restart of the outputs.

Synch Start-up Circuit Description

Description Pin Location, Definition


V max I max

Auxiliary power +12 V (Output 2)

26 Vo2+, Aux output, insulated from main output

Logic ground 28

Logic_GND ,Internally connected over 10 Ω to Vo2-, ( Auxiliary power ground (Output 2))

Output inhibit_A PSU 1-3

12 Inhibit_A ,Active low (DC-DC stage off) Referenced to Logic_GND

<0.8 V >2.0 V

10 V 3.5 mA

Synch. Startup 1

PSU 1-3

R5 (at PSU)

The synch_start pin is connected to the overcurrent signal of the PSU1-3. In the case of an overcurrent shutdown, this

signal goes high. Referenced to Vo1-

<7V off > 9V

15V 10mA

Synch. Startup_A Rack FXR-3-48G 1-N Pin on the D-Sub connector on the backplane

10


The signals of several racks can be connected together in such a way that all

supplies will be inhibited until the last supply has recovered from its

overcurrent condition. Referenced to Logic_GND

NOTE: The Sync-Start pins can be wired together only if the power supplies are connected with a minimal voltage drop on power ground as achieved on a backplane with massive copper bus bars. If there is a less ideal connection, it is recommended to use an opto-coupler for each unit (IC1, D3, D2).




Mechanical Data (FXR-3-48G Power Shelf)




Fulcrum: The handle has been designed to allow easy plug-in and -out in a rack system. The handle (lever) fits into a counter piece (fulcrum) which is fixed to the bottom of the rack. During the plug, the fulcrum holds the unit down and guides it towards the output connector. The Power-One part number of the fulcrum and its associated mounting accessories is: HZZ01223. Individual fulcrum sets can be also ordered: Power-One part no.: HZZ01223. Note: Each HZZ01223 set contain 2 fulcrums, 2 supports, and mounting accessories.

I2C to USB Interface HZZ02002G:

I2C Management Software: All FNP front-ends can be controlled via Power-One's GUI-driven I2C Management software and an I2C-to-USB interface (P/N HZZ02002G). An I2C Programming Manual describes the complete range of parameters that can be programmed to the FXP1500/1800 front-ends. This manual is available by searching on "FXP1500" at www.power-one.com.





Hot-Pluggable Model SelectionsMODEL OUTPUT INPUT VOLTAGE RANGE ADJUSTMENT MAXIMUM OUTPUT LINE LOAD INITIAL SETTING

VOLTAGE 3-PHASE (VAC) RANGE CURRENT REGULATION REGULATION (NOTE 1) ACCURACY

FXP6000-32-S (NOTE 2) 32V 180 to 264 or 342 to 528 30.5 to 33.5V 175A 0.2% 0.2% 31.93V to 32.07VFXP6000-48-S (NOTE 2) 48V 180 to 264 or 342 to 528 45.6V to 50.4V 125A 0.15% 0.2% 47.90V to 48.10V

NOTES: 1) With Remote Sense connected.2) User-selectable input voltage ranges.

Input SpecificationsPARAMETER DESCRIPTION/CONDITIONS MIN NOM MAX UNITS

Input Voltage - AC 3-phase delta low input range, nominal. 200 240 VAC3-phase delta high input range, nominal. 380 480Continuous deviation from the above nominals. -10 +10 %

Input Current Per phase at full rated load. FXP6000 at 180 VAC: 28 ARMS

Inrush Surge Current Internally limited. Vin = 264VAC (one cycle). 25° C: 38 APKVin = 528VAC (one cycle). 25° C: 38

Input Frequency AC input. 50 60 HzHold-up Time After last AC line peak at full power. 208 VAC: 20 ms

410 VAC: 20Operating Frequency Switching frequency, fixed. 100 kHzPower Factor 0.90 W/VA

FXP6000 AC-DC Series Data Sheet

FEB 11, 2005 revised to JAN 09, 2007 Page 1 of 8 www.power-one.com

Features• Three-phase AC input• Suitable for 3U or 5U height mounting• Single-wire current share or Droop current share • Remote voltage adjust and current monitoring• Overtemperature, overload, and overvoltage protection• LED supply status indicators• Current-share control for up to 30 units• Standard & customized rack adaptors available• Front panel selectable-input-range model availability• (For higher power requirements, see FXP7000)• (For chassis-mount requirements, see FXC6000 OR FXC7000)

FXP6000 Front and Rear Views


The FXP6000 Series of rack-mounted power systems provides AC front-end capability to automatic test equipment,telecom, data communications, and other distributed power designs. The FXP systems may be paralleled up to 180 kWof output power. The FXP family is hot pluggable and includes paralleling (OR-ing) diodes. These power suppliesprovide excellent protection against input voltage transients.The FXP family power supplies may be plugged into or removed from an operating system when used in a redundantpower configuration. Access to interfaces for remote sensing, remote voltage adjust, current sharing, currentmonitoring, power supply status, standby voltage and inhibit, as well as power connections, is through a connector atthe rear of the supply. The FXP has its fan, handles, voltage adjust, and indicator lights on the front panel and a singlehot-plug connector on the rear. Airflow is from the front through the rear. Alarm, monitoring, and control signals arefloating from the main output and can be referenced to the positive or negative output or sense line of the power supply.The output is floating with respect to the chassis and may be used as a positive or negative polarity supply. The FXP6000 Series meets international safety requirements and is CE Marked to the Low Voltage Directive. Thisseries operates on three-phase European voltages as well as (up to) 480VAC, delta or wye.

Description




Output SpecificationsPARAMETER DESCRIPTION/CONDITIONS MIN NOM MAX UNITS

Output Voltage An additional 1.0 Volt is provided to the output terminals to 32V Models: 30.4 32 33.6Adjustment Range provide for load lead losses. 48V Models: 45.6 48 50.4 V

Output Power Continuous duty rating. 32V Models: 5600 Watts48V Models: 6000

Output Current Continuous duty rating. 32V Models: 175 A48V Models: 125

Efficiency Full rated load (208Vac). 32V Models: 85 88 %48V Models: 88 91

Regulation Load, Maximum deviation with 0 to 100% load change:With Remote Sense connected: 0.2

With Remote Sense not connected: 0.75 %Utilizing Droop Current Share: 2.0

Line, Under all specified operating conditions. 0.2Ripple & Noise Measured at mating connector w/ 0.01µF + 10µF Tant.

20 MHz BW: 1 % p-p100 MHz BW: 2

Overshoot / Undershoot Output voltage overshoot/undershoot at turn-on. 0 %Minimum Loads Minimum loading required to maintain regulation. 0 ATransient Response Maximum recovery time, to within 1% of initial set Time: 400 µs

point due to a 25% load change, 1A/µs. Deviation: 3 %Turn-On Delay Time required for initial output voltage stabilization after power-up. 3 sTurn-on Rise Time Time required for output voltage to rise from 10% to 90%. 100 ms

Interface Signals and ProtectionPARAMETER (NOTE 1,2) DESCRIPTION/CONDITIONS MIN NOM MAX UNITS

AC Power Fail Warning Warning provided prior to Vout dropping 5% after loss of AC input. 5 msAuxiliary Power Output voltage - diode isolated. Inclusive of line, load, and initial tolerances. 11.5 12.0 12.7 V

Output current. 500 mACurrent Monitor Monitor output current over a compliance range of 0~10V.

Nominal full load output: 12.5 mA50-100% load tolerance: -315 0 315 µA/A

<50% load tolerance: -250 0 500 µA/ACurrent Share Static sharing deviation as a percent of full-load rating Active: 5 %

for loads >10%. Passive: 10Input Range Select Status Maximum signal resistance in high input voltage range selection. 0.10

Loss of Phase Warning Warning provided prior to protective reduction in current limit. 500 msOutput Inhibit Voltage required to enable supply (0.5 mA sink). (NOTE 3) 1.0 VOutput Interlock Voltage required to enable supply (6 mA sink). (NOTE 3) 1.0 VOutput Overload Protection Straight line current limit (above approx. 5V Vout). 32V Models: 180 188 A

48V Models: 129 134Output Overload Warning Signal level on overload. 2.2 VOutput Short Circuit Protection Occurs on overload when Vout is below approx. 5V. 32V Models Iavg: 30 105 A

May operate in burst-mode. 48V Models Iavg: 21 65Output Voltage Fault Signal Deviation from adjusted Vout that is considered as a fault. ±3 ±4 ±5 %Output Voltage Margin Output voltage swing available through Margin pin (analog). ±4.8 ±5.0 ±5.2 %Overtemperature/ Time between fault warning and shutdown. 100 msFan Failure Warning Latching shutdown.Overvoltage Protection Latch style overvoltage protection. FXP6000-32: 36.3 38.4 40.5 V

FXP6000-48: 55.2 57.6 60.0Power Supply Present Signal Resistance to logic ground upon insertion of supply. 1000

Remote Sense Maximum load lead loss compensation (round trip). 1.0 VNOTES: 1) All logic outputs listed below feature a standard active pull-down output with 0.4V max at 40 mA sink capability, and a 100k pull-up to 5V.

2) In addition to those listed below, signals and front-panel LEDs are provided to indicate: overtemperature/fan fault, AC phaseimbalance, output good, interlock open, and supply inhibited. The FXP also provides 4 LED’s indicating output loading.

3) Both signals must be pulled to logic ground for the unit to operate. Enables are 100% redundant internally for applications where redundant inhibit is desirable.

Contact factory for additional design details.





Agency Approvals UL60950/CSA60950-00 (cULus), IEC60950, EN60950 (TÜV),CE marked for the Low Voltage Directive

Electromagnetic Interference FCC CFR title 47 Part 15 Sub-Part B - Conducted. AEN55022 / CISPR 22 Conducted. A Class

ESD Susceptibility Per EN61000-4-2, level 4. 8 kVRadiated Susceptibility Per EN61000-4-3, level 3. 10 V/MEFT/Burst Per EN61000-4-4, level 4. ±4 kVInput Transient Protection Per EN61000-4-5. Line-to-Line: 4 kV

Line-to-Ground: 3Voltage Sag Immunity Per SEMI F47-0200 FXC/FXP7000 PendingLeakage Current Per UL60950 and FXP6000 at 240 VAC, 60 Hz: 5

EN60950: FXP6000 at 400 VAC, 50 Hz: 7 mAFXP6000 at 480 VAC, 60 Hz: 10


Altitude Operating. 10k ASL Ft.Non-Operating. 40k

Operating Temperature At 100% load: 0 50 °CAt 60% load: 70

Storage Temperature -40 85 °CTemperature Coefficient 0°C to 70°C (after 15-minute warm-up). .02 %/°CRelative Humidity Non-Condensing. 95 %RHShock Operating: half-sine 10 ms, 3 axis +20 GPK

Non-operating: half-sine 10 ms, 3 axis +40Vibration Operating: swept sine 5-2000-5 Hz, 5-32 Hz, 0.02îDA, 32-2000 Hz 1 GPK

Non-operating: random 10-2000 Hz 6.15 GrmsAirflow Airflow provided through the supply from front to rear. 135 cfm

3.8 m3/min483 lfm2.5 m/s

Weight 29 lb13 kg




Tyco PN Elcon PN Description1648601-1 296-22-01100 CONN HSING FEM 52P TOP DRAWER1648420-1 712-12-01107 CONTACT SOCKET #0 DOUBLE CROWN1648318-1 702-32-01107 CONN SOCKET #12 BLIND MATE1648325-1 702-92-01109 CONN SOCKET #20 BLIND MATE



BOTTOM VIEW

SIDE VIEW

A A A A

AA

A A

A A A A

A A A A

<--AIRFLOW

LOCK HANDLE

16.09"(408.7mm)

14.259"(362.18mm)

5.750"(146.05mm)

1.100"(27.94mm)

0.480"(12.19mm) 16.96"

(430.8mm)

1.759"(44.68mm)

4.000"(101.6mm)

15.462"(392.73mm)

4.954"(125.83mm)

0.87"(22.1mm)

8.00"(203.2mm)

0.204"(5.18mm)

0.649"(16.48mm)

0.590"(14.99mm)

0.341"(8.66mm)

7.509"(190.73mm)

11.704"(297.28mm)

LED HANDLE

LOCK HOOK

NOTE:TOTAL BOTTOM STACKUP OFRACK MUST BE NO GREATERTHAN 0.204".

FOR OPTIONAL HARD MOUNTING, USE M4 X 0.7 SCREWS, 8PL (MARKED A) ON SIDE OR BOTTOM WITH MAXIMUM PENETRATION 3.8mm.

RECOMMENDED MOUNTING TORQUE10.5 INCH LBS. (0.64N/M)

REAR VIEW

2.437"(61.90mm)

3.901"(99.09mm)

0.521"(13.24mm)

FRONT VIEW

5.000"(127mm)

0.222"(5.64mm)

0.090"(2.29mm)

2PL 4.552"(115.62mm)

0.226"(5.74mm)

LOCK HANDLERELEASE

CENTER -TO-

CENTER

INPUT VOLTAGE DISPLAY CUTOUT

CL CL

MAINTAIN 25 SQ IN MINFREE AREA (FRONT ANDREAR) FOR AIR COOLING

480VAC

INPUT VOLTAGE RANGE SELECT MODULE

ROTATE 180 DEGREES FOR 240 VACWHEN USING THE FXP6000-32-S

OR FXP6000-48-S MODELS

INPUT VOLTAGE LABEL HERE FOR FXP6000-32-240OR FXP6000-48-240

FXP6000 Overall Size: 16.96" x 8.00" x 5.00" (430.8mm x 203.2mm x 127.0mm)

MATING CONNECTOR INFORMATION




0.129" 4PL(3.28mm)

1.484" 2PL(37.69mm)

19.000"

(482.6mm)

5.215"(132.46mm)

2.250" 2PL(57.15mm)

18.312"

(465.12mm)

FXP6000 2PL

FRH7000 POWER SHELF, FRONT VIEWNOTE:FXP6000 POWER SUPPLIES ARE SHOWN FOR ILLUSTRATION PURPOSES ONLY AND ARE NOT INCLUDED AS PART OF POWER SHELF ASSEMBLY.

480V

AC

480V

AC

J2 AC INPUTS J3

3 PHASE 3 WIRE + PE

J1

- +

1 2

3

FRH7000 POWER SHELF, REAR VIEW

0.00

0

0.000

UNITLABEL

0.61"(15.5mm)

3.56"(90.4mm)

5.215"(132.46mm)

2.74"(69.6mm)

4.38"(111.25mm)

9.42"(239.27mm)

15.14"(384.56mm)

16.84"(427.74mm)

17.14"(435.34mm)

19.000"(482.6mm)

0.66"(16.76mm)

1.86"(47.24mm)

10/32 GROUNDSTUD 2PL

AMP PN 213581-1 WITH SILVER-PLATEDCONTACTS

15.44"(384.56mm)

PIN 1

5/16-18 STUD 2 PLACCOMODATES RINGLUG 1.08 MAX WIDTH

2 PL

2 PL

2 PL

NOTES:1. FOR CLARITY, FINGER GUARD FOR DC OUTPUTTERMINALS IS NOT SHOWN IN THIS ILLUSTRATION.

50-PIN SIGNAL HEADERWITH KEYING AND LATCHES(AMP PN: 1-499141-0)

ATTACH EARTH GNDS BEFORE AC CONNECTORS

®

Note: The FRH7000 Power Shelf is designed for alternative vertical mounting with the right side down.




This kit is used to cover an unused right-side slot of the FRH7000 Power Shelf (as viewed from the front of the FRH7000). The kit can be installed before, or afterinstallation of the power shelf into the rack.

FRH7000 POWER SHELF, RIGHT-SIDE VIEW

21.91"(556.5mm)

24.000"(609.6mm)

4.000"(101.6mm)

0.715"(18.16mm)

1/4-20 INSERTS 2 PLEACH SIDE FORREAR SUPPORT

CUSTOMER-SUPPLIEDCABLES OR BUS BARSRACK MOUNTING FLANGE

BRACKET

101363 or 103040

AS APPROPRIATE

FILLER PANEL

BRACKET

101363

(FILLER PANEL KIT AS SEEN FROM INSIDE OF POWER SHELF)




- DC OUT +- DC OUT +

1 21 2

3

5/16-18 STUD 2PLACCOMODATES CABLELUG 1.08" WIDTH MAX.


PIN 1

J2 AC INPUTS J33 PHASE 3W + PE

10/32 PE STUD 3PL

AMP PN: 213581-1WITH SILVER-PLATEDPIN CONTACTS

J1

J4

3.55"(90.17mm)

1.01"(25.65mm)

0.40"(10.16mm)

3.31

"(8

4.07

mm

)

4.95

"(1

25.7

3mm

)

9.42

"(2

39.2

7mm

)

13.3

7"(3

39.6

0mm

)13

.67"

(347

.22m

m)

15.0

7"(3

82.7

8mm

)15

.37"

(390

.40m

m)

16.7

7"(4

25.9

6mm

)17

.07"

(433

.58m

m)

2.71" 3PL(68.8mm)

1.07" 3PL(27.2mm)

0.000

0.00

0

UNITLABEL

FRV7000 POWER SHELF, REAR VIEW



18.6

56"

2PL

(473

.86m

m)

0.34

4" 2

PL

(8.7

4mm

)0.

000

19.0

00"

(482

.6m

m)

8.70"(221.0mm)

7.184" 2PL(182.47mm)

1.434" 2PL(36.42mm)

R 0.129" 4PL(3.28mm)

0.000

FRV7000 POWER SHELF, FRONT VIEWNOTE:FXP6000 POWER SUPPLIES ARE SHOWN FOR ILLUSTRATION PURPOSES ONLY AND ARE NOT INCLUDED AS PART OF POWER SHELF ASSEMBLY.

INPUT VOLTAGE RANGESELECT MODULE

INPUT VOLTAGEDISPLAY CUTOUT

480VAC 480VAC 480VAC

®




Filler Panel Kit, PN: 088-101348

(Used with FRV7000 Power Shelf)

This kit is used to cover an unused left or center slot of the FRV7000 Power Shelf (as viewed from the front of the FRV7000). One kit is required per slot. Kitscan be installed before, or after installation of the power shelf into the rack.

FRV7000 POWER SHELF, LEFT-SIDE VIEW

25.5

6"(6

49.2

mm

)

0.00

0

7.20"(182.9mm)

1.20"(30.5mm)

0.40"(10.2mm)

0.214"(5.44mm)0.000

COOLING AIREXHAUST

COOLING AIRINTAKE

CUSTOMER-SUPPLIEDDC CABLES

POWER SUPPLY LOCKHOOK; CLEARANCEREQUIRED 6 PLACES

FINGER GUARDFOR DC OUTPUTTERMINALS

24.0

0"(6

09.6

mm

)

22.5

0" 2

PL

(571

.5m

m) 1/4-20 THREADED INSERTS 2PL

EACH SIDE FOR REAR SUPPORTOF UNIT. DO NOT EXCEED 0.500"

PENETRATION OF SCREW INTO UNIT.


FILLER PANELUPPER BRACKET

LOWER BRACKET


Hot-Pluggable Model SelectionsMODEL OUTPUT INPUT VOLTAGE RANGE ADJUSTMENT MAXIMUM OUTPUT LINE LOAD INITIAL SETTING


FXP6000-32-S (NOTE 2) 32V 180 to 264 or 342 to 528 30.5 to 33.5V 175A 0.2% 0.2% 31.93V to 32.07VFXP6000-48-S (NOTE 2) 48V 180 to 264 or 342 to 528 45.6V to 50.4V 125A 0.15% 0.2% 47.90V to 48.10V

NOTES: 1) With Remote Sense connected.2) User-selectable input voltage ranges.









Features• Three-phase AC input• Suitable for 3U or 5U height mounting• Single-wire current share or Droop current share • Remote voltage adjust and current monitoring• Overtemperature, overload, and overvoltage protection• LED supply status indicators• Current-share control for up to 30 units• Standard & customized rack adaptors available• Front panel selectable-input-range model availability• (For higher power requirements, see FXP7000)• (For chassis-mount requirements, see FXC6000 OR FXC7000)

FXP6000 Front and Rear Views


The FXP6000 Series of rack-mounted power systems provides AC front-end capability to automatic test equipment,telecom, data communications, and other distributed power designs. The FXP systems may be paralleled up to 180 kWof output power. The FXP family is hot pluggable and includes paralleling (OR-ing) diodes. These power suppliesprovide excellent protection against input voltage transients.The FXP family power supplies may be plugged into or removed from an operating system when used in a redundantpower configuration. Access to interfaces for remote sensing, remote voltage adjust, current sharing, currentmonitoring, power supply status, standby voltage and inhibit, as well as power connections, is through a connector atthe rear of the supply. The FXP has its fan, handles, voltage adjust, and indicator lights on the front panel and a singlehot-plug connector on the rear. Airflow is from the front through the rear. Alarm, monitoring, and control signals arefloating from the main output and can be referenced to the positive or negative output or sense line of the power supply.The output is floating with respect to the chassis and may be used as a positive or negative polarity supply. The FXP6000 Series meets international safety requirements and is CE Marked to the Low Voltage Directive. Thisseries operates on three-phase European voltages as well as (up to) 480VAC, delta or wye.

Description





Output Voltage An additional 1.0 Volt is provided to the output terminals to 32V Models: 30.4 32 33.6Adjustment Range provide for load lead losses. 48V Models: 45.6 48 50.4 V

Output Power Continuous duty rating. 32V Models: 5600 Watts48V Models: 6000

Output Current Continuous duty rating. 32V Models: 175 A48V Models: 125

Efficiency Full rated load (208Vac). 32V Models: 85 88 %48V Models: 88 91

Regulation Load, Maximum deviation with 0 to 100% load change:With Remote Sense connected: 0.2

With Remote Sense not connected: 0.75 %Utilizing Droop Current Share: 2.0

Line, Under all specified operating conditions. 0.2Ripple & Noise Measured at mating connector w/ 0.01µF + 10µF Tant.

20 MHz BW: 1 % p-p100 MHz BW: 2

Overshoot / Undershoot Output voltage overshoot/undershoot at turn-on. 0 %Minimum Loads Minimum loading required to maintain regulation. 0 ATransient Response Maximum recovery time, to within 1% of initial set Time: 400 µs

point due to a 25% load change, 1A/µs. Deviation: 3 %Turn-On Delay Time required for initial output voltage stabilization after power-up. 3 sTurn-on Rise Time Time required for output voltage to rise from 10% to 90%. 100 ms




Nominal full load output: 12.5 mA50-100% load tolerance: -315 0 315 µA/A

<50% load tolerance: -250 0 500 µA/ACurrent Share Static sharing deviation as a percent of full-load rating Active: 5 %

for loads >10%. Passive: 10Input Range Select Status Maximum signal resistance in high input voltage range selection. 0.10

Loss of Phase Warning Warning provided prior to protective reduction in current limit. 500 msOutput Inhibit Voltage required to enable supply (0.5 mA sink). (NOTE 3) 1.0 VOutput Interlock Voltage required to enable supply (6 mA sink). (NOTE 3) 1.0 VOutput Overload Protection Straight line current limit (above approx. 5V Vout). 32V Models: 180 188 A

48V Models: 129 134Output Overload Warning Signal level on overload. 2.2 VOutput Short Circuit Protection Occurs on overload when Vout is below approx. 5V. 32V Models Iavg: 30 105 A

May operate in burst-mode. 48V Models Iavg: 21 65Output Voltage Fault Signal Deviation from adjusted Vout that is considered as a fault. ±3 ±4 ±5 %Output Voltage Margin Output voltage swing available through Margin pin (analog). ±4.8 ±5.0 ±5.2 %Overtemperature/ Time between fault warning and shutdown. 100 msFan Failure Warning Latching shutdown.Overvoltage Protection Latch style overvoltage protection. FXP6000-32: 36.3 38.4 40.5 V

FXP6000-48: 55.2 57.6 60.0Power Supply Present Signal Resistance to logic ground upon insertion of supply. 1000




















3.8 m3/min483 lfm2.5 m/s

Weight 29 lb13 kg







BOTTOM VIEW

SIDE VIEW

A A A A

AA

A A

A A A A

A A A A

<--AIRFLOW

LOCK HANDLE

16.09"(408.7mm)

14.259"(362.18mm)

5.750"(146.05mm)

1.100"(27.94mm)

0.480"(12.19mm) 16.96"

(430.8mm)

1.759"(44.68mm)

4.000"(101.6mm)

15.462"(392.73mm)

4.954"(125.83mm)

0.87"(22.1mm)

8.00"(203.2mm)

0.204"(5.18mm)

0.649"(16.48mm)

0.590"(14.99mm)

0.341"(8.66mm)

7.509"(190.73mm)

11.704"(297.28mm)

LED HANDLE

LOCK HOOK




REAR VIEW

2.437"(61.90mm)

3.901"(99.09mm)

0.521"(13.24mm)

FRONT VIEW

5.000"(127mm)

0.222"(5.64mm)

0.090"(2.29mm)

2PL 4.552"(115.62mm)

0.226"(5.74mm)

LOCK HANDLERELEASE

CENTER -TO-

CENTER


CL CL


480VAC


ROTATE 180 DEGREES FOR 240 VACWHEN USING THE FXP6000-32-S

OR FXP6000-48-S MODELS

INPUT VOLTAGE LABEL HERE FOR FXP6000-32-240OR FXP6000-48-240

FXP6000 Overall Size: 16.96" x 8.00" x 5.00" (430.8mm x 203.2mm x 127.0mm)





0.129" 4PL(3.28mm)

1.484" 2PL(37.69mm)

19.000"

(482.6mm)

5.215"(132.46mm)

2.250" 2PL(57.15mm)

18.312"

(465.12mm)

FXP6000 2PL


480V

AC

480V

AC

J2 AC INPUTS J3

3 PHASE 3 WIRE + PE

J1

- +

1 2

3


0.00

0

0.000

UNITLABEL

0.61"(15.5mm)

3.56"(90.4mm)

5.215"(132.46mm)

2.74"(69.6mm)

4.38"(111.25mm)

9.42"(239.27mm)

15.14"(384.56mm)

16.84"(427.74mm)

17.14"(435.34mm)

19.000"(482.6mm)

0.66"(16.76mm)

1.86"(47.24mm)



15.44"(384.56mm)

PIN 1


2 PL

2 PL

2 PL




®





This kit is used to cover an unused right-side slot of the FRH7000 Power Shelf (as viewed from the front of the FRH7000). The kit can be installed before, or afterinstallation of the power shelf into the rack.


21.91"(556.5mm)

24.000"(609.6mm)

4.000"(101.6mm)

0.715"(18.16mm)



BRACKET

101363 or 103040

AS APPROPRIATE

FILLER PANEL

BRACKET

101363






1 21 2

3



PIN 1


10/32 PE STUD 3PL


J1

J4

3.55"(90.17mm)

1.01"(25.65mm)

0.40"(10.16mm)

3.31

"(8

4.07

mm

)

4.95

"(1

25.7

3mm

)

9.42

"(2

39.2

7mm

)

13.3

7"(3

39.6

0mm

)13

.67"

(347

.22m

m)

15.0

7"(3

82.7

8mm

)15

.37"

(390

.40m

m)

16.7

7"(4

25.9

6mm

)17

.07"

(433

.58m

m)

2.71" 3PL(68.8mm)

1.07" 3PL(27.2mm)

0.000

0.00

0

UNITLABEL




18.6

56"

2PL

(473

.86m

m)

0.34

4" 2

PL

(8.7

4mm

)0.

000

19.0

00"

(482

.6m

m)

8.70"(221.0mm)

7.184" 2PL(182.47mm)

1.434" 2PL(36.42mm)

R 0.129" 4PL(3.28mm)

0.000





®




Filler Panel Kit, PN: 088-101348



FRV7000 POWER SHELF, LEFT-SIDE VIEW

25.5

6"(6

49.2

mm

)

0.00

0

7.20"(182.9mm)

1.20"(30.5mm)

0.40"(10.2mm)

0.214"(5.44mm)0.000

COOLING AIREXHAUST

COOLING AIRINTAKE




24.0

0"(6

09.6

mm

)

22.5

0" 2

PL

(571

.5m






LOWER BRACKET



MAY 31, 2005 revised to JAN 09, 2007 Page 1 of 8 www.power-one.com

Features• Three-phase AC input• Suitable for 3U or 5U height mounting• Single-wire current share or Droop current share • Remote voltage adjust and current monitoring• Overtemperature, overload, and overvoltage protection• LED supply status indicators• Current share control for up to 30 units• Standard & customized rack adaptors available• Front panel selectable-input-rangeFXP7000

Front and Rear Views

The FXP7000 Series of rack-mounted power systemsprovides AC front-end capability to automatic testequipment, telecom, data communications, and otherdistributed power designs. The pluggable FXP suppliesdo not include an output isolation diode and may beparalleled up to 210 kW of total output power. Thesesupplies provide excellent protection against inputvoltage transients.Access to interfaces for remote sensing, remote voltageadjust, current sharing, current monitoring, power supplystatus, standby voltage and inhibit, as well as powerconnections, is through a connector at the rear of thesupply. The FXP has its fan, handles, voltage adjust, and

indicator lights on the front panel and a single hot-plugconnector on the rear. Airflow is from the front throughthe rear. Alarm, monitoring, and control signals arefloating from the main output and can be referenced tothe positive or negative output or sense line of the powersupply. The output is floating with respect to the chassisand may be used as a positive or negative polaritysupply. The FXP7000 Series meets international safetyrequirements and is CE Marked to the Low VoltageDirective. This series operates on three-phase Europeanvoltages as well as (up to) 480VAC, delta or wye.


Hot-Pluggable ModelMODEL OUTPUT INPUT VOLTAGE RANGE ADJUSTMENT MAXIMUM OUTPUT LINE LOAD INITIAL SETTING


FXP7000-48-S 48V 180 to 264 or 342 to 528 45.6V to 50.4V 145A 0.15% 0.2% 47.90V to 48.10V

NOTES: 1) With Remote Sense connected.











Output Voltage An additional 1.0 Volt is provided to the output terminals to provide for 45.6 48 50.4 VAdjustment Range load lead losses.Output Power Continuous duty rating. 7000 WattsOutput Current Continuous duty rating. 145 AEfficiency Full rated load (208Vac). 88 91 %Regulation Load, Maximum deviation with 0 to 100% load change:

With Remote Sense connected: 0.2With Remote Sense not connected: 0.75 %

Utilizing Droop Current Share: 2.0Line, Under all specified operating conditions. 0.2

Ripple & Noise Measured at mating connector w/ 0.01µF + 10µF Tant.20 MHz BW: 1 % p-p

100 MHz BW: 2Overshoot / Undershoot Output voltage overshoot/undershoot at turn-on. 0 %Minimum Loads Minimum loading required to maintain regulation. 0 ATransient Response Maximum recovery time, to within 1% of initial set Time: 800 µs

point due to a 25% load change, 1A/µS. Deviation: 3.2 %Turn-On Delay Time required for initial output voltage stabilization after power-up. 3 sTurn-on Rise Time Time required for output voltage to rise from 10% to 90%. 100 ms




Normal output: 0.10 mA/ATotal error current: 0.5 0 0.5 mA

Current Share Static sharing deviation as a percent of full-load rating Active: 5 %for loads >10%. Passive: 10

Input Range Select Status Maximum signal resistance in high input voltage range selection. 0.10

Loss of Phase Warning Warning provided prior to protective reduction in current limit. 500 msOutput Inhibit Voltage required to enable supply (0.5 mA sink). (NOTE 3) 1.0 VOutput Interlock Voltage required to enable supply (6 mA sink). (NOTE 3) 1.0 VOutput Overload Protection Straight line current limit (above approx. 5V Vout). 149 156 AOutput Overload Warning Signal level on overload. 2.2 VOutput Short Circuit Protection Occurs on overload when Vout is below approx. 5V. Iavg: 25 90 A

May operate in burst-mode.Output Voltage Fault Signal Deviation from adjusted Vout that is considered as a fault. ±3 ±4 ±5 %Output Voltage Margin Output voltage swing available through Margin pin (analog). ±4.8 ±5.0 ±5.2 %Overtemperature/ Time between fault warning and shutdown. 100 msFan Failure Warning Latching shutdown.Overvoltage Protection Latch style overvoltage protection. 55.2 57.6 60.0 VPower Supply Present Signal Resistance to logic ground upon insertion of supply. 1000




















4.4 m3/min555 lfm2.8 m/s

Weight 29 lb13 kg




BOTTOM VIEW

SIDE VIEW

A A A A

AA

A A

A A A A

A A A A

<--AIRFLOW

LOCK HANDLE

16.09"(408.7mm)

14.259"(362.18mm)

5.750"(146.05mm)

1.100"(27.94mm)

0.480"(12.19mm) 16.96"

(430.8mm)

1.759"(44.68mm)

4.000"(101.6mm)

15.462"(392.73mm)

4.954"(125.83mm)

0.87"(22.1mm)

8.00"(203.2mm)

0.204"(5.18mm)

0.649"(16.48mm)

0.590"(14.99mm)

0.341"(8.66mm)

7.509"(190.73mm)

11.704"(297.28mm)

LED HANDLE

LOCK HOOK




REAR VIEW

2.437"(61.90mm)

3.901"(99.09mm)

0.521"(13.24mm)

FRONT VIEW

5.000"(127mm)

0.222"(5.64mm)

0.090"(2.29mm)

2PL 4.552"(115.62mm)

0.226"(5.74mm)

LOCK HANDLERELEASE

CENTER -TO-

CENTER


CL CL


480VAC


ROTATE 180 DEGREES FOR 240 VAC

FXP7000 OVERALL SIZE: 16.96" x 8.00" x 5.00" (430.8mm x 203.2mm x 127.0mm)






0.129" 4PL(3.28mm)

1.484" 2PL(37.69mm)

19.000"

(482.6mm)

5.215"(132.46mm)

2.250" 2PL(57.15mm)

18.312"

(465.12mm)

FXP7000 2PL


480V

AC

480V

AC

J2 AC INPUTS J3

3 PHASE 3 WIRE + PE

J1

- +

1 2

3


0.00

0

0.000

UNITLABEL

0.61"(15.5mm)

3.56"(90.4mm)

5.215"(132.46mm)

2.74"(69.6mm)

4.38"(111.25mm)

9.42"(239.27mm)

15.14"(384.56mm)

16.84"(427.74mm)

17.14"(435.34mm)

19.000"(482.6mm)

0.66"(16.76mm)

1.86"(47.24mm)



15.44"(384.56mm)

PIN 1


2 PL

2 PL

2 PL




®





FILLER PANEL KIT, PN: 088-101378

(Used with FRH7000 Power Shelf)This kit is used to cover an unused right-side slot of the FRH7000 Power Shelf (as viewed from the front of the FRH7000). The kit can be installed before, or afterinstallation of the power shelf into the rack.


21.91"(556.5mm)

24.000"(609.6mm)

4.000"(101.6mm)

0.715"(18.16mm)



BRACKET, 2 PLACES

FILLER PANEL






1 21 2

3



PIN 1


10/32 PE STUD 3PL


J1

J4

3.55"(90.17mm)

1.01"(25.65mm)

0.40"(10.16mm)

3.31

"(8

4.07

mm

)

4.95

"(1

25.7

3mm

)

9.42

"(2

39.2

7mm

)

13.3

7"(3

39.6

0mm

)13

.67"

(347

.22m

m)

15.0

7"(3

82.7

8mm

)15

.37"

(390

.40m

m)

16.7

7"(4

25.9

6mm

)17

.07"

(433

.58m

m)

2.71" 3PL(68.8mm)

1.07" 3PL(27.2mm)

0.000

0.00

0

UNITLABEL




18.6

56"

2PL

(473

.86m

m)

0.34

4" 2

PL

(8.7

4mm

)0.

000

19.0

00"

(482

.6m

m)

8.70"(221.0mm)

7.184" 2PL(182.47mm)

1.434" 2PL(36.42mm)

R 0.129" 4PL(3.28mm)

0.000





®




FILLER PANEL KIT, PN: 088-101348



FRV7000 POWER SHELF, LEFT-SIDE VIEW25

.56"

(649

.2m

m)

0.00

0

7.20"(182.9mm)

1.20"(30.5mm)

0.40"(10.2mm)

0.214"(5.44mm)0.000

COOLING AIREXHAUST

COOLING AIRINTAKE




24.0

0"(6

09.6

mm

)

22.5

0" 2

PL

(571

.5m






LOWER BRACKET




REV. MAR 22, 2006 Page 1 of 8 www.power-one.com

FXR-5-48G AC-DC Power Shelf Preliminary Data Sheet5000 Watts, 48V

Applications • Telecom, datacom, and distributed power systems

Features • RoHS compliant for all six substances • Wide-input voltage range of 85-264 VAC • Simple installation and operation • Auto-select power limits • High-density rack design • 1U high: 17.7” x 1.7” x 14” dimensions • Standby voltage 12 VDC/0.5A • Highly-efficient topology • I2C interface status and control • I2C voltage setting • Analog output voltage setting • Overtemperature, output overvoltage, and output overcurrent protection • ORing circuit for true redundant operation • Status LEDs: AC OK, DC OK, Fan Fail/ Overtemperature Fail

Description The FXR-5-48G modular power shelf provides large power system features in a very cost-effective, 19” rack-mounted form factor. Its very small dimensions allow configuration of up to five power supplies in a 1U rack. This power-shelf solution provides rectification, system management, and power distribution, while maintaining high reliability and offering flexibility for future expansion. The FXR-5-48G shelves are based on the use of hot-swappable AC-DC supplies available at 1000W (FXP1000-48). Highly-efficient thermal design of the FXR-5-48G and internal fan cooling permits its use in wide operating voltage and temperature ranges to provide very high reliability. Each power supply provides status information with front panel LEDs, logic signals, and via an I2C management interface. In addition, the I2C bus can enable the power supply, control the fan speed, adjust the output voltage, and set the output current limit.

Model Configuration

Output 1 Output 2 Model

configuration Input voltage

VAC auto selected

Vo nom VDC

Io max ADC

Vo nom VDC

Io max ADC

Rated powerW

5 x FXP1000-48 in parallel

85– 264 48 105 12 0.5 5006


85– 264 48 84 12 0.5 4006


85– 264 48 63 12 0.5 3006


85– 264 48 42 12 0.5 2006

1 x FXP1000-48 85– 264 48 21 12 0.5 1006





Parameter Conditions/Description Min Max Unit Operating ambient temperature Vi min-Vi max, Io nom, cooling by internal fan

@ 100 % load @ 50 % load

0 0

50 70

°C °C

Storage temperature Non-operational -40 85 °C



10 k 40 k

ASL Ft. ASL Ft.


Shock IEC/EN 60068-2-27, 11 ms 40 gpk Sinusoidal vibration IEC/EN 60068-2-6

2-8 Hz 8-200 Hz

200-500 Hz

7.5 2 4

mil gpk gpk

Random vibration 10-2000 Hz 6.15 grms

Safety Specifications Maximum electric strength testing is performed in the factory according toIEC/EN 60950 and UL 60950.

Parameter Conditions/description Min Nom Max Unit Agency approvals UL6950, (UL) CSA 60950 (cUL),

EN 60950(TÜV), CE Mark for LVD Insulation safety rating Input to case

Input to output Output to case




2.12 4.2 0.5 0.1

kVDCkVDC kVDCkVDC

EMC Specification with 5 FXP1000-48 units in parallel Parameter Description Criterion

Electrostatic discharge IEC/EN 61000-4-2, level 4 (contact/air) 8/15 kV, Performance criterion B Electromagnetic field IEC/EN 61000-4-3, level 3 10 V/m, Performance criterion A

Electrical fast transients/burst IEC/EN 61000-4-4, level 3 (in/out) 2/1 kV, Performance criterion B Surge IEC/EN 61000-4-5, level 3 (L/L, L/E) ½ kV, Performance criterion B

Voltage dips and interruptions IEC/EN 61000-4-11 Dip 30 %, 100 ms Dip 30 %, 200 ms Dip 60 %, 20 ms Dip 60 %, 100 ms Dip > 95 %, 20 ms Dip > 95 %, 100 ms

Performance criterion A Performance criterion B Performance criterion A Performance criterion B Performance criterion A Performance criterion B

RF conducted immunity IEC/EN 61000-4-6 10 VAC, AM 80 %, 1 kHz Performance criterion A

Emissions conducted CISPR 22/EN 55022/EN 61204 Class B Emissions radiated CISPR 22/EN 55022/EN 61204 Class A

Harmonics IEC/EN 61000-3-2 Class B Voltage fluctuation and flicker IEC/EN 61000-3-3 Pass




Output Specification Specification is valid for input voltage, load, and temperature ranges, unless otherwise stated.

Parameter Conditions/Description Min Nom Max Unit Nominal output voltage Io = 10.5 A 48 VDC Output voltage trimming

(via I2C or with external resistor) Adjustable (each unit) -8 +8 % Vo1 nom

Nominal current output 1 with 5 x FXP1000-48

Io1 nom @ Vi =85 VAC – 264 VAC, Po 5.0 kW

105

ADC



84

ADC



63

ADC



42

ADC



21

ADC

Current limit output 2 Io2 max @ Vi = 85 VAC – 265 VAC 1.5 ADC

Start-up time Time required for output within regulation after initial application of AC-input (Vi nom, Io nom)

after removal of inhibit (Vi nom, Io nom)

100

1.5

s

ms Remote sense Total compensation for cable losses 500 mV

Current share Difference in current between two units for Vo1 above 10 % load.

6.4 ADC


Parameter Conditions/description I2C digital bus

Monitors alarm functions and sets parameters

PS remote shutdown / Inhibit pin TTL compatible signal, inhibited when open contact, high or at TTL logic “1” Signal referenced to logic return (LRTN)

Power supply OK (I2C)* AC OK & DC OK & no overcurrent & no overtemperature & fans working DC current fail (I2C)* Overcurrent on Io1

AC fail / Power down warning (I2C & OC)*

Provides a warning that the input power has failed at least 5 ms before the output falls out of regulation. Open collector signal with 20 mA pull-down capability, referenced to logic return (LRTN). AC fail will go high or open during power fail condition and will go low when input is within the operating range. A Power Fail warning will turn off the green AC OK LED.

DC fail / Output voltage fault (I2C & OC)*

Internal undervoltage and overvoltage supervision of Vo1. Open collector signal with 20 mA pull-down capability, referenced to logic return (LRTN). DC fail will go high or open if Vo1 is < 90% or > 110% of Vo1 set, measured in front of the ORing FETs. A green LED on the front panel indicates normal operation. The LED will flash if in parallel operation Vo1 is OK, but the unit is disabled.




Control (Continued) Specification is valid for input voltage, load, and temperature ranges, unless otherwise stated.

Parameter Conditions/description

Temperature warning (I2C & OC)*

I2C critical temperature warning: Indicates that the operating temperature has reached [Tshut-down – 10K] I2C & OC overtemperature warning: Indicates if the unit is in overtemperature shutdown. Open collector signal with 20 mA pull-down capability, referenced to logic return (LRTN). The OC-output will go low 100 ms before an overtemperature condition shuts down the unit. An amber LED on the front panel indicates overtemperature or fan fail.

DC voltage monitoring (I2C)* Monitors the output voltage Vo1: Accuracy ± 0.45 V over setting range, temperature, and load.

DC current monitoring (I2C)* Monitors the output current Io1: Accuracy ± 0.4 A over setting range. DC voltage trimming (I2C or external resistor)*

Output voltage trimming Vo1: ± 8 % of Vo set Setting accuracy over I2C: ± 50 mV at Vo nom, ± 150 mV over setting range

Fan speed control (I2C)* Two fan speed levels automatically set depending on the internal temperature. The fan speed can be set to full speed or automatic control.

Fan OK (I2C & OC)* Indicates if fan is operating or has failed.

Synch. startup pin Overcurrent signal which can be used for synchronous start-up of units in parallel or to recover from an overload condition. (See application note).

* Provided over the I2C interface or as an open collector signal on the output connector (OC).

SUB-D Output Connector Pinout and Signal Specification


Pin Location


V max I max



Pull up 15 V


Pull up 10 V


Pull up 10 V

10 mA

NC 4



Pull up 15 V



Pull up 15 V


Pull up 10 V



Pull up 15 V



Pull up 15 V

20 mA

NC 10, 11




<0.8 V >2.0 V

10 V 3.5 mA






Pin Location


V max I max


dU < 3 Vpp

30 mA


dU < 3 Vpp

30 mA NC 15



Pull up 15 V



Pull up 15 V



Pull up 15 V



Pull up 15 V



Pull up 15 V



Pull up 15 V



Pull up 15 V



Pull up 15 V

20 mA

DATA, I2C data line 24 I2C compatible signal referenced to logic GND 5 V or 3.3 V logic -

CLOCK, I2C clock line 25 I2C compatible signal referenced to logic GND 5 V or 3.3 V logic -

Auxiliary power +12 V (Output 2) 26 Vo2+ Aux output, insulated from main output - -

Auxiliary power ground (Output 2) 27 Vo2- Aux output, insulated from main output - -

Logic Gnd 28

Internally connected over 10 Ω to Vo2-, Auxillary GND. Wire separately from auxiliary and main output GND to minimize noise and avoid voltage drops on

signal- and I2C return. Leave open if not used.

- -


V sense- (+8 % Vo1) or V sense+ (-8 % Vo1) - -

60V -



60V -



60V -



60V -



60V -



Pull up 15 V


Pull up 10 V

10 mA






Pin Location


V max I max



Pull up 15 V


Pull up 10 V

10 mA


Location Description

A IEC AC-input terminal of PSU1 B 5-Bit DIP switch for I2C addressing of PSU 1 C IEC AC-input terminal of PSU2 D 5-Bit DIP switch for I2C addressing of PSU 2 E 37-pin SUB-D connector, controlling and auxiliary power (output Vo2) F IEC AC-input terminal of PSU3 G 5-Bit DIP switch for I2C addressing of PSU 3 H Output Vo1- I Output Vo1+ J IEC AC-input terminal of PSU4 K 5-Bit DIP switch for I2C addressing of PSU 4 L IEC AC-input terminal of PSU5 M 5-Bit DIP switch for I2C addressing of PSU5

Cooling: Sufficient airflow through the unit must be ensured to achieve best cooling results. DO NOT block or obstruct the airflow at the rear of the unit by placing large objects directly at the output connector.

AIRFLOW AIRFLOW

B C D E F H I J K A G L M




Mechanical Data

Mechanical Data (H, W, D) 17.7” (449mm) x 1.7” (43.6mm) x 14” (355.6mm)

Back Shelf holding device The shelf can be alternatively mounted rear side into the frame.




Accessories: Center angular brackets set in the middle for shelf mounting: Center Angular Bracket sets can be ordered: Power-One order no.: HZZ01222 Note: One Center Angular Bracket set contain two brackets and 8 screws. NUCLEAR AND MEDICAL APPLICATIONS - Power-One products are not designed, intended for use in, or authorized for use as critical components in life support systems, equipment used in hazardous environments, or nuclear control systems without the express written consent of the respective divisional president of Power-One, Inc. TECHNICAL REVISIONS - The appearance of products, including safety agency certifications pictured on labels, may change depending on the date manufactured. Specifications are subject to change without notice.



SFD550-12BG Front-End Preliminary Data SheetDC Input, 12V Output, 550 Watts

Description The SFD550-12BG expands the ‘excellence in design’ of our SFP Series by providing a 550-watt, DC-input front-end which complements the SFP450-12BG and the SFP650-12BG AC-DC front ends. It provides a main 12 VDC output for datacom and other distributed power applications, and a 3.3 VDC standby output. Its compact size enables mounting in both 1U and 2U height racks. High efficiencies, advanced thermal management techniques, and an internal fan increase reliability over a broad range of operating conditions. Internal OR’ing FET’s facilitate use in hot-swap, redundant configurations.

Status is provided with front panel LEDs, logic signals, and via an I2C management interface bus. In addition, the I2C bus can supply status information about the power supply including output current and voltage.

The SFD550-12BG meets international safety requirements and is CE marked to the Low Voltage Directive (LVD).

Model Selection

Model Nominal

Output Voltage (VDC)



(Amps)

Regulation

%

Ripple & Noise @

20 MHz BW 1(mV)

SFD550-12BG 12 3.3 (Standby)

N/A N/A

45.0 3.1

± 3 ± 3

100 100

1 With an external capacitance of 740 µF on +12 V output and 50 µF on +3.3 V output.

Applications

• Datacom • Distributed power systems • Server

Features • RoHS compliant for all six substances • NEBS Level 3 compliant: GR-63, 78, 1089 • Wide DC input range (-40 to -75 VDC) • 1U or 2U height configurations • Active current share with ORing FET on +12V • I2C interface status and control • Standby voltage of 3.3 VDC @ 3 A • Overtemperature, overload, and overvoltage

protection • Status LEDs: INPUT OK, OUTPUT OK, and

FAULT • Two-speed fan for low noise at low ambient

temperatures





DC Input Voltage Continuous input range. -40 -48 to -60 -75 VDC

Hold-up Time On all outputs. At -52 VDC.

10

ms

Input Current At full-rated load. At -40 VDC. 16.5 A

Inrush Surge Current Excluding Xcap. @ 25 ºC 30 A pk Output Specifications

Parameter Conditions/Description Min. Nom. Max. Units Efficiency 30-80% load from -48 to -66 VDC input. 90 91.5 %

Minimum Load Minimum loading required to maintain regulation.

0 A

Output Power 550 W

Overshoot Output voltage overshoot at turn-on. 0 < 10 %

Transient Response Maximum recovery time to within 1% of initial set point due to a 25% load change, 1A/µs. 12 VDC output: Standby output: Maximum deviation: 12 VDC output: Standby output:

1 1

1 1

3 3

ms ms

% %

Turn-On Delay with PS_ON signal

Time required for initial output voltage stabilization after application of AC input or ON/OFF signal.

< 3 sec

Output Regulation See Model Selection data on page 1.

+12 VDC 0 10,000 µF Allowable Output Capacitance +3.3 VDC 0 1,000 µF




Interface Signals and Internal Protection1 Parameter Conditions/Description Min. Nom. Max. Units

Overvoltage Protection

Latch-style overvoltage protection. 14.5 15 4.3

V

Overcurrent Protection

Current limit (Latching Mode). 12 V output: Standby output:

47.2 3.25

58.5 4.65

A


Latching Mode: +12 V Foldback: +3.3 V


12V output will shut down in the event of an overtemperature condition or blocked fan rotor. Supply's fan and Vaux are active. Power supply will recover when OT condition is removed. Amber OT LED will turn ON to indicate fault condition.

Signal Input/ Output

Conditions/Description

PS_KILL Input Output enable. Pulled low in conjunction with PS_ON being pulled low; allows V1 (+12V) to be activated. Signal has internal 100 kohm pull-up resistor to 3V.

+12V Current Share

Input/ Output

0 to 4.5 V (0.1 V/Amp) signal used for active current sharing.

Write Protect Input For factory use only.

PS A0 Input Sets the I2C Address. Low = 0 High = 1 Signal has an internal 4.75 kohm pull-up resistor to 3V.

SDA Input/ Output

I2C Data line (3.3 V).

SCL Input/ Output

I2C Clock line (3.3 V).

Tach_1 Output Two pulses per fan revolution. Signal has an internal 2 kohm pull-up resistor to 3.3 VDC

DC_OK/H Output High signal indicates DC is within PSU limits. Signal is open drain with an internal 10 kohm pull-up resistor to 3.3 VDC.

Present/L Output Internally connected to Filter ground allowing the PSU to be detected on insertion.

Alert/L Output Low signal indicates PSU fan is running below speed or an overtemperature limit was exceeded. Signal is open drain with an internal 1kohm pull-up resistor to 3.3 VDC.

PWROK/H Output High signal indicates both outputs are within regulation limits. Signal is open drain with an internal 1 kohm pull-up resistor to 3.3 VDC.

PSON Input Same as PS_KILL; must be low for +12V to be ON. Signal has 10kohm pull-up resistor to 3.3 VDC.

+12V Sense Input Connect to positive side of the load

+12V Return Sense

Input Connect to negative side of the load

1 Refer to product specification for internal pull-up impedances and timing of these signals.




I2C Bus Management Interface1

Static Includes static information such as: part number and revision level, output rating, serial number, date code, and manufacturing location.

Status (Logic 1 or 0) DC Input OK. DC Output OK. Overtemperature. Overcurrent. Fan OK. Overvoltage Alert Undervoltage Alert

Real-Time Monitoring Output voltage (main output). LSB = 19.8 mV Output current (main output). LSB = 73.3 mA

1 Reference "I2C Management Interface" and "EEPROM Table of Contents" documents for SFD550-12BG (consult factory).


Agency Approvals UL60950-1 (UL recognized), CSA C22.2 60950-1 (CSA recognized thru UL, cUR), EN60950-1 (TÜV), IEC60950-1, CE Mark (Low Voltage Directive 2006/95/EC)



A A

Class


ESD Susceptibility Per EN61000-4-2, Level 4. 8 . kV

Radiated Susceptibility

Per EN 61000-4-3, Level 3. 10 . V/M




1 2

. kV


Per EN 61000-4-6, Level 3. 10 . V






10K 40K

ASL ft ASL ft


Internal DC fan for cooling. At 100% load: 0 50 ºC


Temperature Coefficient

0 ºC to 50 ºC (after 15-minute warm-up). 0.02 %/ºC

Relative Humidity Non-condensing. 93 %RH


+20

+40

Gpk

Gpk

Vibration Operating: Fast swept sine 5-500-5 Hz, Slow swept sine5-100 Hz Non-operating: random 10-500 Hz.

2 2

6.15

Gpk

Grms

Reliability


Demonstrated. 100,000200,000

hrs hrs

LED Indicators

Indicator LED Color/State Power Good GREEN / ON

DC INPUT OK GREEN / ON

FAULT AMBER / ON




Mechanical Drawings (Drawing dimensions are shown in mm) Overall Dimensions: 12.03 X 3.07 X 1.57 inches (305.6 X 78 X 40 mm) Weight: max of 2.50 lb




Connector Information Power Supply: Input - WAGO #721-603/019-043 Output - P/N FCI 51721-10002406AA or equivalent Mating Connections: Input - WAGO #721-103/026-000 (Strain relief model #232-603 is optional) or 721-103/037-000 Output - P/N: FCI 5174-10002406AA




Note: Filter ground is the return for bypass capacitors on the input and output signal lines. Filter ground pins must be connected to the return pins on the user PCB at the user connector pins.


MCD10088 Rev. 1.1, 3-Oct-08 Page 1 of 9 www.power-one.com

SFP450-12BG AC-DC Front-End Data Sheet12V Output, 450 Watts

Description The SFP450-12BG is a 450-watt, power factor corrected (PFC) front-end which provides a 12 VDC output for datacom and other distributed power applications. Its compact size enables mounting in both 1U and 2U height racks. High efficiencies, advanced thermal management techniques, and an internal fan increase reliability over a broad range of operating conditions. Internal ORing diodes facilitate use in hot-swap, redundant configurations.

Status is provided with front panel LEDs, logic signals, and via the I2C management interface bus. In addition, the I2C bus can enable the power supply and control fan speed.

The SFP450-12BG meets international safety requirements and is CE marked to the Low Voltage Directive (LVD).

Model Selection

Model Nominal




(Amps)

Regulation

%

Ripple & Noise @

20 MHz BW (mV)

SFP450-12BG 12 3.3 (Standby)

N/A N/A

36.6 3

±3 ±3

100 100

Applications

• Datacom • Distributed power systems

Features • RoHS compliant for all six substances • Wide input voltage range (90-264 VAC)

with PFC • High power density, 9 Watts/cubic inch • 1U or 2U height configurations • Active current share with ORing FET • I2C interface status and control • Standby voltage of 3.3 VDC @ 3 A • Overtemperature, overload, and

overvoltage protection • Status LEDs: AC OK, DC OK,

Overtemperature







Hold-up Time After last AC line peak at full power. At 115 VAC.

20

ms


Inrush Surge Current Excluding Xcap. Vin = 264 VAC. 25 ºC 15 A pk

Power Factor Per EN61000-3-2 > 0.95 W/VA Output Specifications

Parameter Conditions/Description Min. Nom. Max. Units With Vin at 115VAC and 50% to 100% load on V1.

88.5 %

With Vin at 230VAC and 50% to 75% load on V1.

90.5 %

Efficiency NOTE: Internal fan is considered part of the load as it is driven from the 12V output; Vaux load is set to 0A for efficiency measurements.


91.0 %


0 A

Output Power 450 W

Overshoot Output voltage overshoot at turn-on. < 5 %

Transient Response Maximum recovery time to within 1% of initial set point due to a 25% load change, 1A/µs. 12V output: Standby output: Maximum deviation: 12V output: Standby output:

5 5

3 3

ms ms

% %



1500 ms






Overvoltage Protection Latch-style overvoltage protection. 15 4.3

V

Overcurrent Protection Current limit (Latching Mode). 12V output: Standby output:

38.4 3.2

47.6 6

A


Latching Mode.


12V output will shut down in the event of an overtemperature condition or blocked fan rotor. OT setpoint is 62 ±3 ºC. Supply's fan and Vaux are active. Power supply will recover when OT condition is removed. Amber OT LED will turn ON to indicate fault condition.

PS_KILL Output enable. Pulled low on conjunction with PS_ON being pulled low allows V1 to be activated.

+12V Current Share 0 to 8V signal used for active current sharing.

Write Protect For factory use only.

PS A0 I2C Address.

SDA I2C Data line (3.3V).

SCL I2C Clock line (3.3V).

Tach Two pulses per fan revolution.

AC_OK/H High signal indicates AC is within PSU limits.

Present/L 100 Ohm resistor internally connected to RTN allowing the PSU to be detected on insertion.

Alert/L Low signal indicates PSU fan is running below speed or an overtemperature limit was exceeded.

PWROK/H High signal indicates both outputs are within regulation limits. 1 Refer to product specification for internal pull up impedances and timing of these signals.






Status (Logic 1 or 0) AC Input OK. DC Output OK. Overtemperature. Overcurrent. Fan OK. Overvoltage Alert Undervoltage Alert

Real-Time Monitoring Output voltage (main output). LSB = 20 mV Output current (main output). LSB = 50 mA

1 Reference "I2C Management Interface" and "EEPROM Table of Contents" documents for SFP450-12BG (consult factory).


Agency Approvals UL 60950-1, CSA C22.2 No. 60950-1, EN 60950-1 (TÜV), CE Mark for LVD.



A A

Class






Per EN 61000-4-3, Level 3. 10 . V/M




1 2

. kV


Per EN 61000-4-6, Level 3. 10 . V

Voltage Interruptions Per EN 61000-4-11, performance criterion B 30%.Per EN 61000-4-11, performance criterion C 60%.Per EN 61000-4-11, performance criterion C 95%.

10 100 5

. ms ms Sec

Voltage Sag Immunity

Per SEMI F47-0999 > 100 VAC. No output voltage interruption.

.







10K 40K

ASL ft ASL ft








+20

+40

Gpk

Gpk


1

6.15

Gpk

Grms

Reliability



100 000200 000

10

hrs hrs yrs

LED Indicators

Indicatorr LED Color Power Good GREEN

AC OK GREEN (Input > 85 VAC

FAIL AMBER




Mechanical Drawings Weight: 1.46 kg (3.22 lb)




Connector Information Power Supply: Input - IEC 320 input (Male) standard line cord connection Output - P/N FCI 51721-10002406AA or equivalent Mating Connections: Input - IEC 320 output (Socket) Standard line cord (15A) Output - P/N: FCI 51741-10002406CC





Description The SFP650-12BG is a 650-watt, power factor corrected (PFC) front-end which provides a 12 VDC output for datacom and other distributed power applications. Its compact size enables mounting in both 1U and 2U height racks. High efficiencies, advanced thermal management techniques, and an internal fan increase reliability over a broad range of operating conditions. Internal ORing diodes facilitate use in hot-swap, redundant configurations.

Status is provided with front panel LEDs, logic signals, and via the I2C management interface bus. In addition, the I2C bus can enable the power supply and control fan speed.

The SFP650-12BG meets international safety requirements and is CE marked to the Low Voltage Directive (LVD).

Model Selection

Model Nominal




(Amps)

Regulation

%

Ripple & Noise @

20 MHz BW (mV)

SFP650-12BG 12 3.3 (Standby)

N/A N/A

53.3 3

±3 ±3

100 100

Applications

• Datacom • Distributed power systems

Features • Ideal server form factor optimizes, space,

efficiency, and load variations • High efficiency maximized between

30-80% load conditions • Unconditionally stable under any load

condition • NEBS level 3 compliance

(GR-63, -78, -1089) • Wide range DC-input model available

(SFD550-12BG) • Wide input voltage range (90-264 VAC)

with PFC • 1U or 2U height configurations • Active current share with ORing FET • I2C interface status and control • Standby voltage of 3.3 VDC @ 3 A • Overtemperature, overload, and

overvoltage protection • Status LEDs: AC OK, DC OK, and

Overtemperature







Hold-up Time After last AC line peak at full power. At 115 VAC.

20

ms


Inrush Surge Current Excluding Xcap. Vin = 264 VAC. 25 ºC 15 A pk

Power Factor Per EN61000-3-2 > 0.95 W/VA Output Specifications

Parameter Conditions/Description Min. Nom. Max. Units With Vin at 115VAC and 50% to 75% load on V1.

88.0 %


87.0 %


90.0 %

Efficiency NOTE: Internal fan is considered part of the load as it is driven from the 12V output; Vaux load is set to 0A for efficiency measurements.


89.5 %


0 A

Output Power 650 W

Overshoot Output voltage overshoot at turn-on. < 5 %

Transient Response Maximum recovery time to within 1% of initial set point due to a 25% load change, 1A/µs. 12V output: Standby output: Maximum deviation: 12V output: Standby output:

5 5

3 3

ms ms

% %



1500 ms






Overvoltage Protection Latch-style overvoltage protection. 15 4.3

V

Overcurrent Protection Current limit (Latching Mode). 12V output: Standby output:

56.0 3.2

69.3 6

A


Latching Mode.


12V output will shut down in the event of an overtemperature condition or blocked fan rotor. OT setpoint is 62 ±3 ºC. Supply's fan and Vaux are active. Power supply will recover when OT condition is removed. Amber OT LED will turn ON to indicate fault condition.

PS_KILL Output enable. Pulled low on conjunction with PS_ON being pulled low allows V1 to be activated.

+12V Current Share 0 to 8V signal used for active current sharing.

Write Protect For factory use only.

PS A0 I2C Address.

SDA I2C Data line (3.3V).

SCL I2C Clock line (3.3V).

Tach Two pulses per fan revolution.

AC_OK/H High signal indicates AC is within PSU limits.

Present/L 100 Ohm resistor internally connected to RTN allowing the PSU to be detected on insertion.

Alert/L Low signal indicates PSU fan is running below speed or an overtemperature limit was exceeded.

PWROK/H High signal indicates both outputs are within regulation limits. 1 Refer to product specification for internal pull up impedances and timing of these signals.






Status (Logic 1 or 0) AC Input OK. DC Output OK. Overtemperature. Overcurrent. Fan OK. Overvoltage Alert Undervoltage Alert

Real-Time Monitoring Output voltage (main output). LSB = 20 mV Output current (main output). LSB = 100 mA

1 Reference "I2C Management Interface" and "EEPROM Table of Contents" documents for SFP650-12BG (consult factory).


Agency Approvals UL 60950-1, CSA C22.2 No. 60950-1, EN 60950-1 (TÜV), CE Mark for LVD.



A A

Class






Per EN 61000-4-3, Level 3. 10 . V/M




1 2

. kV


Per EN 61000-4-6, Level 3. 10 . V

Voltage Interruptions Per EN 61000-4-11, performance criterion B 30%.Per EN 61000-4-11, performance criterion C 60%.Per EN 61000-4-11, performance criterion C 95%.

10 100 5

. ms ms Sec

Voltage Sag Immunity

Per SEMI F47-0999 > 100 VAC. No output voltage interruption.

.







10K 40K

ASL ft ASL ft








+20

+40

Gpk

Gpk


1

6.15

Gpk

Grms

Reliability



100 000200 000

10

hrs hrs yrs

LED Indicators

Indicatorr LED Color Power Good GREEN

AC OK GREEN (Input > 85 VAC

FAIL AMBER




Mechanical Drawings Weight: 1.46 kg (3.22 lb)




Connector Information Power Supply: Input - IEC 320 input (Male) standard line cord connection Output - P/N FCI 51721-10002406AA or equivalent Mating Connections: Input - IEC 320 output (Socket) Standard line cord (15A) Output - P/N: FCI 51741-10002406CC



FCP600-48 AC-DC Front End Data Sheet 48V Output, 600 Watts · OCT 30, 2006 revised to NOV 10, 2006...

Documents

Transcript of FCP600-48 AC-DC Front End Data Sheet 48V Output, 600 Watts · OCT 30, 2006 revised to NOV 10, 2006...