Introduction to 6-cell and 14-cell slider battery pack …UM11124 Introduction to 6-cell and 14-cell...

UM11124Introduction to 6-cell and 14-cell slider battery pack emulatorkitRev. 1 — 16 May 2018 User manual

Document informationInformation ContentKeywords battery cell controller, battery emulator, battery management systems

Abstract This user manual provides the user with an overview of theBATT-6EMULATOR and BATT-14EMULATOR battery pack emulators.

NXP Semiconductors UM11124Introduction to 6-cell and 14-cell slider battery pack emulator kit

UM11124 All information provided in this document is subject to legal disclaimers. © NXP B.V. 2018. All rights reserved.

User manual Rev. 1 — 16 May 20182 / 14

Revision historyRev Date Description1 20180516 initial version




1 Introduction

The BATT-6EMULATOR and BATT-14EMULATOR boards can emulate a multi-cellbattery pack that can be easily hooked-up to the evaluation boards for MC33771 andMC33772 battery cell controllers (BCC):

• FRDM33772BTPLEVB (to be used with BATT-6EMULATOR)• FRDM33772BSPIEVB (to be used with BATT-6EMULATOR)• FRDM33771BTPLEVB (to be used with BATT-14EMULATOR)• FRDM33771BSPIEVB (to be used with BATT-14EMULATOR)

The user can connect the BATT-6EMULATOR and BATT-14EMULATOR boards for aquick evaluation of NXP BCC ICs, or to help the users in their software development.These boards basically provide a very intuitive way to change the voltage across anyof the 6 cells or 14 cells of an emulated battery pack as well as the voltage across anemulated current sense shunt resistor.

2 Specifications

These boards have been designed and optimized for the operating conditions describedbelow. Usage of these boards beyond these conditions can lead to malfunction anddamage.

Table 1. Maximum ratingsDescription Min Max UnitSupply input voltage 10.8 13.2 V

Cell output current - 110 mA

Current sense output current - ±1 µA

Operating ambient temperature −10 +40 °C

Table 2. Electrical characteristicsDescription Min Typ Max UnitMinimum cell voltage output (slider down) - 1.25 - V

Maximum cell voltage output (slider up) - 4.6 - V

Minimum current sensor voltage output (slider down) - −150 - mV

Maximum current sensor voltage output (slider up) - 150 - mV

Voltage isolation between input power supply and batteryemulator outputs

- 1 - kV




3 Pack content

The kit includes:

One electronic board: The slider battery pack emulator board itself further referenced inthis document as emulator board.

One ribbon cable that allows the user to connect the slider battery pack emulator to theMC3377x evaluation kits.

Figure 1. BATT-14EMULATOR kit components

Figure 2. BATT-6EMULATOR kit components




4 Getting started with the emulator board

aaa-030175

J2

J6

D3

power input

LED

positive pack output

negative pack output

BMS connector

J23

shun

tcur

rent

Cel

l01

Cel

l02

Cel

l03

Cel

l04

Cel

l05

Cel

l06

©20

17N

XPB.

V.

Figure 3. BATT-6EMULATOR board elements

aaa-030176

J2

power input

LED

positive pack output

negative pack output

BMS connector

J23

shun

tcur

rent

Cel

l01

Cel

l02

Cel

l03

Cel

l04

Cel

l05

Cel

l06

Cel

l07

Cel

l08

Cel

l09

Cel

l10

Cel

l11

Cel

l12

Cel

l13

Cel

l14

©20

17N

XP

B.V

.

J6D

3

Figure 4. BATT-14EMULATOR board elements

The emulator board requires a 12 V DC power supply with 1.5 A current capability (1 A isenough for BATT-6EMULATOR). The power supply is to be connected to the board viaJ6, a Ø3.5 mm jack connector. The center pin is to be connected to the positive voltageand the ring terminal to the ground. The input of the board is protected in case of wrongpolarity. An LED allows the user to check that the board is powered up. If the voltage ispresent to the jack connector but the LED is off, then check the fuse F1.

Each of the sliders allows the user to change independently the differential voltagebetween two cell terminals (or cell voltage). A separate slider allows the variation of thevoltage across the current shunt resistor.

Using the slider potentiometers, the user can modify each cell voltage between 1.25 Vand 4.6 V. The current capability of the cell output voltage is 110 mA which allows theuser to connect up to three evaluation boards in parallel.

The current sense output voltage can vary from −150 mV to +150 mV. This output is notdesigned to drive a large current since the current sense input from the MC3377x needsas little as 100 nA. If more than 1 µA is pulled from this output, the voltage may drop by afew mV.




The emulator board features two output terminals, a red and a black 2 mm bananaplug. The plugs can be used to connect several emulator boards in series. The isolationvoltage between the power input and the cells is higher than 1000 V. If several emulatorboards are connected in series, the voltage of the packs may exceed 75 V. The user hasto take adequate precautions related to the high-voltage risks.




5 Schematics

aaa-030177

4132

F1J6

J2banana red

PJ-053DH

D3

SS24T3GSF-1206SP400-2

2

TERM_P [3]

A

12 V

C

A C1

F2

J1F0805B0R25FSTR1

579111315171921232527293133

CON 2 x 17

32

68

1012

1614

182022242628303234

CT06CT05CT04CT03CT02CT01

SENSE_N

4

12

1 2

C6847 µF

25 V

R105560 Ω

D2LED red

C5610 µFDNP

C5310 µFDNP

C541 µFDNP

R841 kΩ

R48

R46

R7522 Ω

2

1

4

3

+VOUTU29

TME1209S

U28ZLDO1117KTC

-VOUT

+VIN

VIN2

2

31

1

3

VOUT

ADJ(GND)

110 mA max

-VIN

12 V

J23banana black

1 2TERM_N [3]

VPWR [4]

CT06 [4]CT05 [4]CT04 [4]CT03 [4]CT02 [4]CT01 [4]SENSE_P [4]CTREF [4]

C55100 µF

VPWR [3,4]

CT06 [3,4]

C5210 µF

DNP

C5010 µFDNP

C491 µFDNP

R851 kΩ

R7622 Ω

2

1

4

3

+VOUTU27

TME1209S

U26ZLDO1117KTC

-VOUT

+VIN

VIN2

2

31

1

3

VOUT

ADJ(GND)

110 mA max

-VIN

12 V C51100 µF

CT05 [3,4]

C4810 µF

DNP

C4610 µFDNP

C451 µFDNP

R861 kΩ

R7722 Ω

2

1

4

3

+VOUTU25

TME1209S

U24ZLDO1117KTC

-VOUT

+VIN

VIN2

2

31

1

3

VOUT

ADJ(GND)

110 mA max

-VIN

12 V C47100 µF

R44

R42

R40

R36

CT04 [3,4]

C4410 µF

DNP

C4110 µFDNP

C421 µFDNP

R871 kΩ

R7822 Ω

2

1

4

3

+VOUTU23

TME1209S

U22ZLDO1117KTC

-VOUT

+VIN

VIN2

2

31

1

3

VOUT

ADJ(GND)

110 mA max

-VIN

12 V C43100 µF

CT03 [3,4]

C4010 µF

DNP

C3710 µFDNP

C381 µFDNP

R881 kΩ

R7922 Ω

2

1

4

3

+VOUTU21

TME1209S

U20ZLDO1117KTC

-VOUT

+VIN

VIN2

2

31

1

3

VOUT

ADJ(GND)

110 mA max

-VIN

12 V C39100 µF

CT02 [3,4]

C3210 µF

DNP

C3010 µFDNP

C291 µFDNP

R1081.02 kΩ

C700.1 µF

C6410 µF

R891 kΩ

R8022 Ω

2

1

4

3

+VOUTU17

TME1209S

U16ZLDO1117KTC

U30

U33

U32

ZLDO1117KTC

ADR3412ARJZ-R2

ADR3412ARJZ-R2

-VOUT

+VIN

VIN2

2

31

1

3

VOUT

VIN VIN

ENABLE

VOUT_FORCE

VOUT_SENSE

VOUT_FORCE

GND_SENSE

GND_FORCE

VOUT_SENSE

GND_SENSE

GND_FORCE

64

3 5

2

1

64

3 5

2

1

231

VOUT

ADJ(GND)

110 mA max

-VIN

12 V

C6510 µF

DNP2

1

4

3

+VOUTU31

TME1205S

-VOUT

+VIN110 mA max

-VIN

12 V

R9922 Ω

C31100 µF

C6310 µF

CT01 [3,4]

CTREF [3,4]

SENSE_P [3,4]TERM_N [3,4]

R107

C6610 µF

R10222 Ω

VIN

ENABLE SENSE_N

12R100

1 kΩ

R1043.3 kΩ0.1 %

R1013.3 kΩ0.1 %

C710.1 µF

C6710 µF

C730.1 µF

C720.1 µF

C6910 µF

3

Figure 5. BATT-6EMULATOR schematic




aaa-030178

4132

F1J6

J2banana red

PJ-053DH

D3

SS24T3GSF-1206SP400-2

2

TERM_P

A

12 V

C

A C1

F2

J1F0805B0R25FSTR1

579111315171921232527293133

CON 2 x 17

32

68

1012

1614

182022242628303234

CT06CT07CT08CT09CT10CT11CT12CT13CT14

CT05CT04CT03CT02CT01

SENSE_N

4

12

1 2

C6847 µF

25 V

R105560 Ω

D2LED red

C5610 µF

DNP

C5310 µFDNP

C541 µFDNP

R841 kΩ

R48

R46

R7522 Ω

2

1

4

3

+VOUTU29

TME1209S

U28ZLDO1117KTC

-VOUT

+VIN

VIN 2

2

31

1

3

VOUT

ADJ(GND)

110 mA max

-VIN

12 V

J23banana black

1 2TERM_N [2]

VPWR [4]

CT06 [2]CT05 [2]CT04 [2]CT03 [2]CT02 [2]CT01 [2]SENSE_P [2]CTREF [2]

CT07 [2]

CT09 [2]CT08 [2]

CT10 [2]CT11 [2]CT12 [2]CT13 [2]CT14 [2]

C55100 µF

VPWR [2]

CT14 [2]

C5210 µFDNP

C5010 µFDNP

C491 µFDNP

R851 kΩ

R7622 Ω

2

1

4

3

+VOUTU27

TME1209S

U26ZLDO1117KTC

-VOUT

+VIN

VIN2

2

31

1

3

VOUT

ADJ(GND)

110 mA max

-VIN

12 V C51100 µF

CT13 [2]

C4810 µFDNP

C4610 µFDNP

C451 µFDNP

R861 kΩ

R7722 Ω

2

1

4

3

+VOUTU25

TME1209S

U24ZLDO1117KTC

-VOUT

+VIN

VIN2

2

31

1

3

VOUT

ADJ(GND)

110 mA max

-VIN

12 V C47100 µF

R44

R42

R40

CT12 [2]

C4410 µFDNP

C4110 µFDNP

C421 µFDNP

R871 kΩ

R7822 Ω

2

1

4

3

+VOUTU23

TME1209S

U22ZLDO1117KTC

-VOUT

+VIN

VIN2

2

31

1

3

VOUT

ADJ(GND)

110 mA max

-VIN

12 V C43100 µF

CT11 [2]

C4010 µFDNP

C3710 µFDNP

C381 µFDNP

R881 kΩ

R7922 Ω

2

1

4

3

+VOUTU21

TME1209S

U20ZLDO1117KTC

-VOUT

+VIN

VIN2

2

31

1

3

VOUT

ADJ(GND)

110 mA max

-VIN

12 V C39100 µF

CT10 [2]

R36

C3210 µFDNP

C3010 µFDNP

C291 µFDNP

R891 kΩ

R8022 Ω

2

1

4

3

+VOUTU17

TME1209S

U16ZLDO1117KTC

-VOUT

+VIN

VIN2

2

31

1

3

VOUT

ADJ(GND)

110 mA max

-VIN

12 V C31100 µF

CT09 [2]

R38

C3610 µFDNP

C3310 µFDNP

C341 µFDNP

R901 kΩ

R8122 Ω

2

1

4

3

+VOUTU19

TME1209S

U18ZLDO1117KTC

-VOUT

+VIN

VIN2

2

31

1

3

VOUT

ADJ(GND)

110 mA max

-VIN

12 V C35100 µF

CT08 [2]

R34

C2810 µF

DNP

C2610 µFDNP

C251 µFDNP

R911 kΩ

R8222 Ω

2

1

4

3

+VOUTU15

TME1209S

U14ZLDO1117KTC

-VOUT

+VIN

VIN 2

2

31

1

3

VOUT

ADJ(GND)

110 mA max

-VIN

12 V C27100 µF

CT07 [2]

CT06 [2]

Figure 6. BATT-14EMULATOR schematic (part 1)




aaa-030256

C2410 µFDNP

C2210 µFDNP

C211 µFDNP

R921 kΩ

R32

R30

R7422 Ω

2

1

4

3

+VOUTU13

TME1209S

U12ZLDO1117KTC

-VOUT

+VIN

VIN2

2

31

1

3

VOUT

ADJ(GND)

110 mA max

-VIN

12 V C23100 µF

CT06 [2]

C2010 µF

DNP

C1810 µFDNP

C171 µFDNP

R931 kΩ

R7322 Ω

2

1

4

3

+VOUTU11

TME1209S

U10ZLDO1117KTC

-VOUT

+VIN

VIN2

2

31

1

3

VOUT

ADJ(GND)

110 mA max

-VIN

12 V C19100 µF

CT05 [2]

C1610 µF

DNP

C1410 µFDNP

C131 µFDNP

R941 kΩ

R7222 Ω

2

1

4

3

+VOUTU9

TME1209S

U8ZLDO1117KTC

-VOUT

+VIN

VIN2

2

31

1

3

VOUT

ADJ(GND)

110 mA max

-VIN

12 V C15100 µF

R28

R26

R24

R22

CT04 [2]

C1210 µF

DNP

C1010 µFDNP

C91 µFDNP

R951 kΩ

R7122 Ω

2

1

4

3

+VOUTU7

TME1209S

U6ZLDO1117KTC

-VOUT

+VIN

VIN2

2

31

1

3

VOUT

ADJ(GND)

110 mA max

-VIN

12 V C11100 µF

CT03 [2]

C810 µF

DNP

C610 µFDNP

C51 µFDNP

R961 kΩ

R7022 Ω

2

1

4

3

+VOUTU5

TME1209S

U4ZLDO1117KTC

-VOUT

+VIN

VIN2

2

31

1

3

VOUT

ADJ(GND)

110 mA max

-VIN

12 V C7100 µF

CT02 [2]

C410 µF

DNP

C210 µFDNP

C11 µFDNP

R1081.02 kΩ

C700.1 µF

C6410 µF

R971 kΩ

R6922 Ω

2

1

4

3

+VOUTU3

TME1209S

U2ZLDO1117KTC

U30

U33

U32

ZLDO1117KTC

ADR3412ARJZ-R2

ADR3412ARJZ-R2

-VOUT

+VIN

VIN2

2

31

1

3

VOUT

VIN VIN

ENABLE

VOUT_FORCE

VOUT_SENSE

VOUT_FORCE

GND_SENSE

GND_FORCE

VOUT_SENSE

GND_SENSE

GND_FORCE

64

3 5

2

1

64

3 5

2

1

231

VOUT

ADJ(GND)

110 mA max

-VIN

12 V

C6510 µF

DNP2

1

4

3

+VOUTU31

TME1205S

-VOUT

+VIN110 mA max

-VIN

12 V

R9922 Ω

C3100 µF

C6310 µF

CT01 [2]

CTREF [2]

SENSE_P [2]TERM_N [2]

R107

C6610 µF

R10222 Ω

VIN

ENABLE SENSE_N

12R100

1 kΩ

R1043.3 kΩ0.1 %

R1013.3 kΩ0.1 %

C710.1 µF

C6710 µF

C730.1 µF

C720.1 µF

C6910 µF

3

Figure 7. BATT-14EMULATOR schematic (part 2)




6 Board bill of materialsTable 3. BATT-6EMULATOR bill of materialsNXP does not assume liability, endorse, or warrant components from external manufacturers are referenced in circuitdrawings or tables. While NXP offers component recommendations in this configuration, it is the responsibility of thecustomer to validate.

Item Qty Assemblyoption

Reference Value Manufacturingpart number

Description

1 6 DNP C29, C38, C42, C45, C49, C54 1 μF 50 V capacitor 1206

2 13 DNP C30, C32, C37, C40, C41, C44,C46, C48, C50, C52, C53, C56,C65

10 μF 50 V capacitor 1206

3 6 C31, C39, C43, C47, C51, C55 100 μF 10 V capacitor 1206

4 5 C63, C64, C66, C67, C69 10 μF 50 V capacitor 1206

5 1 C68 47 μF 25 V capacitor 1206

6 4 C70, C71, C72, C73 0.1 μF 50 V capacitor 0603

7 1 D2 APT3216SURCK LED red

8 1 D3 40 V SS24T3G diode 2 A 40 V SMB

9 1 F1 4 A SF-1206SP400-2 fuse 4 A SMD 1206

10 1 F2 0.25 A F0805B0R25FSTR fuse 0.25 A SMD 0805

11 1 J1 N2534-5002-RB CON 2X17

12 1 J2 930224101 banana red

13 1 J6 PJ-053DH PWR jack 1.3 mm

14 1 J23 930224100 banana black

15 7 R36, R40, R42, R44, R46, R48,R107

340 Ω RES 0.125 W 1 % 0603

16 8 R75, R76, R77, R78, R79, R80,R99, R102

22 Ω RES 0.25 W 5 % 1206

17 7 R84, R85, R86, R87, R88, R89,R100

1 kΩ PTA4543-2015CPB102

RES POT 1 kΩ 0.25 W

18 2 R101, R104 3.3 kΩ RES 0.1 W 0.1 % 0603

19 1 R105 560 Ω RES 0.125 W 1 % 0603

20 1 R108 1.02 kΩ RES 0.1 W 1 % 0603

21 7 U16, U20, U22, U24, U26, U28,U30

ZLDO1117KTC voltage regulator

22 6 U17, U21, U23, U25, U27, U29 TME1209S 9 V DC-to-DC converter

23 1 U31 TME1205S 5 V DC-to-DC converter

24 2 U32, U33 ADR3412ARJZ-R2 voltage reference 1.2 V




Table 4. BATT-14EMULATOR bill of materialsNXP does not assume liability, endorse, or warrant components from external manufacturers are referenced in circuitdrawings or tables. While NXP offers component recommendations in this configuration, it is the responsibility of thecustomer to validate.



Description

1 14 DNP C1, C5, C9, C13, C17, C21, C25,C29, C34, C38, C42, C45, C49,C54


2 29 DNP C2, C4, C6, C8, C10, C12, C14,C16, C18, C20, C22, C24, C26,C28, C30, C32, C33, C36, C37,C40, C41, C44, C46, C48, C50,C52, C53, C56, C65


3 14 C3, C7, C11, C15, C19, C23,C27, C31, C35, C39, C43, C47,C51, C55


4 5 C63, C64, C66, C67, C69 10 μF 50 V capacitor 1206

5 1 C68 47 μF 25 V capacitor 1206

6 4 C70, C71, C72, C73 0.1 μF 50 V capacitor 0603

7 1 D2 APT3216SURCK LED red

8 1 D3 40 V SS24T3G diode 2 A 40 V SMB

9 1 F1 4 A SF-1206SP400-2 fuse 4 A SMD 1206

10 1 F2 0.25 A F0805B0R25FSTR fuse 0.25 A SMD 0805

11 1 J1 N2534-5002-RB CON 2X17

12 1 J2 930224101 banana red

13 1 J6 PJ-053DH PWR jack 1.3 mm

14 1 J23 930224100 banana black

15 15 R22, R24, R26, R28, R30, R32,R34, R36, R38, R40, R42, R44,R46, R48, R107

340 Ω RES 0.125 W 1 % 0603

16 16 R69, R70, R71, R72, R73, R74,R75, R76, R77, R78, R79, R80,R81, R82, R99, R102

22 Ω RES 0.25 W 5 % 1206

17 15 R84, R85, R86, R87, R88, R89,R90, R91, R92, R93, R94, R95,R96, R97, R100

1 kΩ PTA4543-2015CPB102

RES POT 1 kΩ 0.25 W

18 2 R101, R104 3.3 kΩ RES 0.1 W 0.1 % 0603

19 1 R105 560 Ω RES 0.125 W 1 % 0603

20 1 R108 1.02 kΩ RES 0.1 W 1 % 0603

21 15 U2, U4, U6, U8, U10, U12, U14,U16, U18, U20, U22, U24, U26,U28, U30

ZLDO1117KTC voltage regulator

22 14 U3, U5, U7, U9, U11, U13, U15,U17, U19, U21, U23, U25, U27,U29

TME1209S 9 V DC-to-DC converter






Description

23 1 U31 TME1205S 5 V DC-to-DC converter

24 2 U32, U33 ADR3412ARJZ-R2 voltage reference 1.2 V

7 References

The following are URLs where the user can obtain information on related NXP productsand application solutions.

Table 5. ReferencesItem Description LinkBATT‑6EMULATOR tool summary page http://www.nxp.com/BATT-6EMULATOR

BATT‑14EMULATOR tool summary page http://www.nxp.com/BATT-14EMULATOR

MC33771MC33772

battery cell controllers page http://www.nxp.com/Battery-Cell-Controllers

FRDM33771BSPIEVB evaluation kit http://www.nxp.com/FRDM33771BSPIEVB

FRDM33771BTPLEVB evaluation kit http://www.nxp.com/FRDM33771BTPLEVB

FRDM33772BSPIEVB evaluation kit http://www.nxp.com/FRDM33772BSPIEVB

FRDM33772BTPLEVB evaluation kit http://www.nxp.com/FRDM33772BTPLEVB

http://www.nxp.com/BATT-6EMULATOR

http://www.nxp.com/BATT-14EMULATOR

http://www.nxp.com/Battery-Cell-Controllers

http://www.nxp.com/FRDM33771BSPIEVB

http://www.nxp.com/FRDM33771BTPLEVB

http://www.nxp.com/FRDM33772BSPIEVB

http://www.nxp.com/FRDM33772BTPLEVB




8 Legal information

8.1 DefinitionsDraft — The document is a draft version only. The content is still underinternal review and subject to formal approval, which may result inmodifications or additions. NXP Semiconductors does not give anyrepresentations or warranties as to the accuracy or completeness ofinformation included herein and shall have no liability for the consequencesof use of such information.

8.2 DisclaimersLimited warranty and liability — Information in this document is believedto be accurate and reliable. However, NXP Semiconductors does notgive any representations or warranties, expressed or implied, as to theaccuracy or completeness of such information and shall have no liabilityfor the consequences of use of such information. NXP Semiconductorstakes no responsibility for the content in this document if provided by aninformation source outside of NXP Semiconductors. In no event shall NXPSemiconductors be liable for any indirect, incidental, punitive, special orconsequential damages (including - without limitation - lost profits, lostsavings, business interruption, costs related to the removal or replacementof any products or rework charges) whether or not such damages are basedon tort (including negligence), warranty, breach of contract or any otherlegal theory. Notwithstanding any damages that customer might incur forany reason whatsoever, NXP Semiconductors’ aggregate and cumulativeliability towards customer for the products described herein shall be limitedin accordance with the Terms and conditions of commercial sale of NXPSemiconductors.

Right to make changes — NXP Semiconductors reserves the right tomake changes to information published in this document, including withoutlimitation specifications and product descriptions, at any time and withoutnotice. This document supersedes and replaces all information supplied priorto the publication hereof.

Applications — Applications that are described herein for any of theseproducts are for illustrative purposes only. NXP Semiconductors makesno representation or warranty that such applications will be suitablefor the specified use without further testing or modification. Customersare responsible for the design and operation of their applications andproducts using NXP Semiconductors products, and NXP Semiconductorsaccepts no liability for any assistance with applications or customer productdesign. It is customer’s sole responsibility to determine whether the NXPSemiconductors product is suitable and fit for the customer’s applicationsand products planned, as well as for the planned application and use ofcustomer’s third party customer(s). Customers should provide appropriatedesign and operating safeguards to minimize the risks associated withtheir applications and products. NXP Semiconductors does not accept anyliability related to any default, damage, costs or problem which is basedon any weakness or default in the customer’s applications or products, orthe application or use by customer’s third party customer(s). Customer isresponsible for doing all necessary testing for the customer’s applicationsand products using NXP Semiconductors products in order to avoid adefault of the applications and the products or of the application or use bycustomer’s third party customer(s). NXP does not accept any liability in thisrespect.

Suitability for use in automotive applications — This NXPSemiconductors product has been qualified for use in automotiveapplications. Unless otherwise agreed in writing, the product is not designed,authorized or warranted to be suitable for use in life support, life-critical or

safety-critical systems or equipment, nor in applications where failure ormalfunction of an NXP Semiconductors product can reasonably be expectedto result in personal injury, death or severe property or environmentaldamage. NXP Semiconductors and its suppliers accept no liability forinclusion and/or use of NXP Semiconductors products in such equipment orapplications and therefore such inclusion and/or use is at the customer's ownrisk.

Export control — This document as well as the item(s) described hereinmay be subject to export control regulations. Export might require a priorauthorization from competent authorities.

Evaluation products — This product is provided on an “as is” and “with allfaults” basis for evaluation purposes only. NXP Semiconductors, its affiliatesand their suppliers expressly disclaim all warranties, whether express,implied or statutory, including but not limited to the implied warranties ofnon-infringement, merchantability and fitness for a particular purpose. Theentire risk as to the quality, or arising out of the use or performance, of thisproduct remains with customer. In no event shall NXP Semiconductors, itsaffiliates or their suppliers be liable to customer for any special, indirect,consequential, punitive or incidental damages (including without limitationdamages for loss of business, business interruption, loss of use, loss ofdata or information, and the like) arising out the use of or inability to usethe product, whether or not based on tort (including negligence), strictliability, breach of contract, breach of warranty or any other theory, even ifadvised of the possibility of such damages. Notwithstanding any damagesthat customer might incur for any reason whatsoever (including withoutlimitation, all damages referenced above and all direct or general damages),the entire liability of NXP Semiconductors, its affiliates and their suppliersand customer’s exclusive remedy for all of the foregoing shall be limited toactual damages incurred by customer based on reasonable reliance up tothe greater of the amount actually paid by customer for the product or fivedollars (US$5.00). The foregoing limitations, exclusions and disclaimersshall apply to the maximum extent permitted by applicable law, even if anyremedy fails of its essential purpose.

Safety of high-voltage evaluation products — The non-insulated highvoltages that are present when operating this product, constitute a risk ofelectric shock, personal injury, death and/or ignition of fire. This product isintended for evaluation purposes only. It shall be operated in a designatedtest area by personnel that is qualified according to local requirementsand labor laws to work with non-insulated mains voltages and high-voltagecircuits. The product does not comply with IEC 60950 based national orregional safety standards. NXP Semiconductors does not accept any liabilityfor damages incurred due to inappropriate use of this product or related tonon-insulated high voltages. Any use of this product is at customer’s ownrisk and liability. The customer shall fully indemnify and hold harmless NXPSemiconductors from any liability, damages and claims resulting from theuse of the product.

Translations — A non-English (translated) version of a document is forreference only. The English version shall prevail in case of any discrepancybetween the translated and English versions.

8.3 TrademarksNotice: All referenced brands, product names, service names andtrademarks are the property of their respective owners.

SafeAssure — is a trademark of NXP B.V.SMARTMOS — is a trademark of NXP B.V.


Please be aware that important notices concerning this document and the product(s)described herein, have been included in section 'Legal information'.

© NXP B.V. 2018. All rights reserved.For more information, please visit: http://www.nxp.comFor sales office addresses, please send an email to: [email protected]

Date of release: 16 May 2018Document identifier: UM11124

Contents1 Introduction ......................................................... 32 Specifications ...................................................... 33 Pack content ........................................................44 Getting started with the emulator board ........... 55 Schematics .......................................................... 76 Board bill of materials ...................................... 107 References ......................................................... 128 Legal information ..............................................13

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