AF-60 LPTM Micro Drive
Installation & Set-upQuick GuideGuia rapidaKurzanleitungGuide rapideGuida rapida
The instructions do not purport to cover all details or variations in equipment nor to provide for every possible contingency to be met in connection with installation, operation or maintenance. Should further information be desired or should particular problems arise which are not covered sufficiently for the purchasers purposes, the matter should be referred to the GE company.
AF-650 GP is a trademark of the General Electric Company.
GE41 Woodford AvenuePlainville, CT 06062
www.geelectrical.com/drives
132R0038 *MG02H26S*
DET-416264A/S/D/F/I
GE
1 Quick Guide
1.1.1 Warnings
High Voltage Warning:
The voltage of the frequency converter is dangerous whenever it is connected to mains. Incorrect installation of the motor or frequency
converter may cause damage to the equipment, serious injury or death. Consequently, it is essential to comply with the instructions in this
manual as well as local and national rules and safety regulations.
Warning:
Touching the electrical parts may be fatal - even after the equipment has been disconnected from mains.
Also make sure that other voltage inputs have been disconnected (such as external DC bus power supplies).
Be aware that there may be high voltage on the DC link even when the LEDs are turned off.
Before touching any potentially live parts of the frequency converter, wait at least 4 minutes for all M1, M2 and M3 sizes.
Wait at least 15 minutes for all M4 and M5 sizes.
Leakage Current:
The earth leakage current from the frequency converter exceeds 3.5 mA. According to IEC 61800-5-1 a reinforced Protective Earth connec-
tion must be ensured by means of a min. 10mm Cu or an addtional PE wire - with the same cable cross section as the Mains wiring - must
be terminated separately.
Residual Current Device:
This product can cause a DC current in the protective conductor. Where a residual current device (RCD) is used for extra protection, only an
RCD of Type B (time delayed) shall be used on the supply side of this product.
Protective earthing of the frequency converter and the use of RCDs must always fo
Motor Thermal Protection:
Motor overload protection is possible by setting Parameter 1-90 Motor thermal protection to the value Electronic overload trip. For the
North American market: Electronic overload functions provide class 20 motor overload protection, in accordance with NEC.
Installation in high altitudes:
For altitudes above 2 km, please contact GE .
AF-60 LP Micro Drive
DEH-41264A 1
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1.1.2 Safety Instructions
Make sure the frequency converter is properly connected to earth.
Do not remove mains connections, motor connections or other power connections while the frequency converter is connected to power.
Protect users against supply voltage.
Protect the motor against overloading according to national and local regulations.
The earth leakage current exceeds 3.5 mA.
The [OFF] key is not a safety switch. It does not disconnect the frequency converter from mains.
1.1.3 Available Literature
NB!
This quick guide contains the basic information necessary for installing and running the drive.
If more information is needed, the literature below can be downloaded from: www.geelectrical.com/drives
1.1.4 Approvals
1.1.5 IT Mains
IT Mains
Installation on isolated mains source, i.e. IT mains.
Max. supply voltage allowed when connected to mains: 440 V.
As an option, GE offers line filters for improved harmonics performance.
1.1.6 Avoid unintended Start
While the frequency converter is connected to mains, the motor can be started/stopped using digital commands, bus commands, references or via the drive
Keypad.
Disconnect the frequency converter from mains whenever personal safety considerations make it necessary to avoid unintended start of any motors.
To avoid unintended start, always activate the [OFF] key before changing parameters.
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1.1.7 Disposal Instruction
Equipment containing electrical components must not be disposed of together with domestic waste.
It must be separately collected with electrical and electronic waste according to local and currently valid legisla-
tion.
1.1.8 Before Commencing Repair Work
1. Disconnect AF-60 LP Micro Drive from mains (and external DC supply, if present.)
2. Wait for 4 minutes (M1, M2 and M3) and 15 minutes (M4 and M5) for discharge of the DC-link.
3. Disconnect DC bus terminals and brake terminals (if present)
4. Remove motor cable
1.1.9 Side-by-Side Installation
The frequency converter can be mounted side-by-side for IP 20 rating units and requires 100 mm clearance above and below for cooling. Please refer to the
specifications near the end of this document for details on environmental ratings of the frequency converter.
1.1.10 Mechanical Dimensions
A template for drilling can be found on the flap of the packaging.
Illustration 1.1: Mechanical dimensions.
Power (kW) Height (mm) Width (mm) Depth 1) (mm) Max. WeightUnitSize 1 X 200-240 V 3 X 200 -240 V 3 X 380-480 V A A (incl. decoupling plate) a B b C Kg
M1 0.18 - 0.75 0.25 - 0.75 0.37 - 0.75 150 205 140.4 70 55 148 1.1M2 1.5 1.5 1.5 - 2.2 176 230 166.4 75 59 168 1.6M3 2.2 2.2 -3.7 3.0 - 7.5 239 294 226 90 69 194 3.0M4 11.0-15.0 292 347.5 272.4 125 97 241 6.0M5 18.5-22.0 335 387.5 315 165 140 248 9.5
1) For Keypad with potentiometer, please add 7.6 mm.
Table 1.1: Mechanical Dimensions
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1.1.11 Electrical Installation in General
NB!
All cabling must comply with national and local regulations on cable cross-sections and ambient temperature. Copper conductors required, (60-75 C) rec-
ommended.
Details of terminal tightening torques.
Power (kW) Torque (Nm)Unit Size 1 x 200-240 V 3 x 200-240 V 3 x 380-480 V Line Motor DC connection/Brake Control Terminals Earth Relay
M1 0.18 - 0.75 0.25 - 0.75 0.37 - 0.75 1.4 0.7 Spade1) 0.15 3 0.5M2 1.5 1.5 1.5 - 2.2 1.4 0.7 Spade1) 0.15 3 0.5M3 2.2 2.2 - 3.7 3.0 - 7.5 1.4 0.7 Spade1) 0.15 3 0.5M4 11.0-15.0 1.3 1.3 1.3 0.15 3 0.5M5 18.5-22.0 1.3 1.3 1.3 0.15 3 0.5
1) Spade connectors (6.3 mm Faston plugs)
Table 1.2: Tightening of terminals.
1.1.12 Fuses
Branch circuit protection:
In order to protect the installation against electrical and fire hazard, all branch circuits in an installation, switch gear, machines etc., must be short-circuited
and overcurrent protected according to national/international regulations.
Short circuit protection:
GE Drive is suitable for a circuit capable of supplying a maximum of 100,000 Arms (symmetrical), 480 V maximum.
Overcurrent protection:
Provide overload protection to avoid overheating of the cables in the installation. Overcurrent protection must always be carried out according to national
regulations.
Non UL compliance:
If UL/cUL is not to be complied with, GE recommends using the fuses mentioned in the below table, which will ensure compliance with EN50178/IEC61800-5-1:
In case of malfunction, not following the fuse recommendation may result in damage to the frequency converter.
AF-60 LP Micro Drive
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Max. fuses ULMax. fuses non ULBussmann Bussmann Bussmann Littel fuse Ferraz-Shawmut
Ferraz-Shawmut
1 X 200-240 VType RK1 Type J Type T Type RK1 Type CC Type RK1 Type gG
1/4 - 1/2 KTN-R15 JKS-15 JJN-15 KLN-R15 ATM-R15 A2K-15R 16A1 KTN-R25 JKS-25 JJN-25 KLN-R25 ATM-R25 A2K-25R 25A2 KTN-R35 JKS-35 JJN-35 KLN-R35 - A2K-35R 35A3 KTN-R50 JKS-50 JJN-50 KLN-R50 - A2K-50R 50A3 x 200-240 V1/3 KTN-R10 JKS-10 JJN-10 KLN-R10 ATM-R10 A2K-10R 10A1/2 KTN-R15 JKS-15 JJN-15 KLN-R15 ATM-R15 A2K-15R 16A1 KTN-R20 JKS-20 JJN-20 KLN-R20 ATM-R20 A2K-20R 20A2 KTN-R25 JKS-25 JJN-25 KLN-R25 ATM-R25 A2K-25R 25A3 KTN-R40 JKS-40 JJN-40 KLN-R40 ATM-R40 A2K-40R 40A5 KTN-R40 JKS-40 JJN-40 KLN-R40 - A2K-40R 40A3 x 380-480 V1/2 - 1 KTS-R10 JKS-10 JJS-10 KLS-R10 ATM-R10 A6K-10R 10A2 KTS-R15 JKS-15 JJS-15 KLS-R15 ATM-R15 A2K-15R 16A3 KTS-R20 JKS-20 JJS-20 KLS-R20 ATM-R20 A6K-20R 20A4 KTS-R40 JKS-40 JJS-40 KLS-R40 ATM-R40 A6K405R 40A5 KTS-R40 JKS-40 JJS-40 KLS-R40 ATM-R40 A6K-40R 40A7.5 KTS-R40 JKS-40 JJS-40 KLS-R40 - A6K-40R 40A10 KTS-R40 JKS-40 JJS-40 KLS-R40 - A6K-40R 40A15 KTS-R60 JKS-60 JJS-60 KLS-R60 - A6K-60R 63A20 KTS-R60 JKS-60 JJS-60 KLS-R60 - A6K-60R 63A25 KTS-R60 JKS-60 JJS-60 KLS-R60 - A6K-60R 80A30 KTS-R60 JKS-60 JJS-60 KLS-R60 - A6K-60R 80A
Table 1.3: Fuses
AF-60 LP Micro Drive
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1.1.13 Connecting to Mains and Motor
The frequency converter is designed to operate all standard three-phased asynchronous motors.
The frequency converter is designed to accept mains/motor cables with a maximum cross-section of 4 mm2/10 AWG (M1, M2 and M3) and maximum cross-
section 16 mm2/6 AWG (M4 and M5).
Use a shielded/armored motor cable to comply with EMC emission specifications, and connect this cable to both the decoupling plate and the motor
metal.
Keep motor cable as short as possible to reduce the noise level and leakage currents.
For further details on mounting of the decoupling plate, please see instruction MI.02.BX.YY.
Also see EMC-Correct Installation in Operating Instruction MG.02.AX.YY.
Step 1: First, mount the earth wires to earth terminal.
Step 2: Connect motor to terminals U, V and W.
Step 3: Mount mains supply to terminals L1/L, L2 and
L3/N (3-phase) or L1/L and L3/N (single-phase) and tighten.
Illustration 1.2: Mounting of earth cable, mains and motor
wires.
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1.1.14 Control Terminals
All control cable terminals are located underneath the terminal cover in
front of the frequency converter. Remove the terminal cover using a screw-
driver.
NB!
See back of terminal cover for outlines of control terminals and switches.
Illustration 1.3: Removing terminal cover.
The illustration below shows all control terminals of the frequency converter. Applying Start (term. 18) and an analog reference (term. 53 or 60) make the fre-
quency converter run.
Illustration 1.4: Overview of control terminals in PNP-configuration and factory setting.
AF-60 LP Micro Drive
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1.1.15 Power Circuit - Overview
Illustration 1.5: Diagram showing all electrical terminals.
* Brake (BR+ and BR-) are not applicable for Unit Size M1.
Brake resistors are available from GE.
Improved power factor and EMC performance can be achieved by installing optional GE line filters.
GE power filters can also be used for load sharing.
1.1.16 Load sharing/Brake
Use 6.3 mm insulated Faston Plugs designed for high voltage for DC (Load Sharing and brake).
Load sharing: Connect terminals UDC- and UDC/BR+.
Brake: Connect terminals BR- and UDC/BR+ (Not applicable for Unit Size M1).
Note that voltage levels of up to 850 V DC may occur between terminals
UDC+/BR+ and UDC-. Not short circuit protected.
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1.1.17 Programming with Keypad
For detailed information on programming, please see Programming Guide, AF-60 LP Micro Drive.
NB!
The frequency converter can also be programmed from a PC via RS485 com-port by installing the DCT-10 Drive Control Tool.
This software can be downloaded from the GE web site: www. geelectrical.com/drives
Illustration 1.6: Description of Keypad buttons and display
Use the [MENU] key to select one of the following menus:
Status:
For readouts only.
Quick Menu:
For access to Quick Menus 1 and 2, respectively.
Main Menu:
For access to all parameters.
Navigation Keys:
[Back]: For moving to the previous step or layer in the navigation structure.
Arrows [ ] [ ]: For manoeuvring between parameter groups, parameters and within parameters.
[OK]: For selecting a parameter and for accepting changes to parameter settings.
Operation Keys:
A yellow light above the operation keys indicates the active key.
[Hand]: Starts the motor and enables control of the frequency converter via the Keypad.
AF-60 LP Micro Drive
DEH-41264A 9
1
[Off/Reset]: Stops the motor (off). If in alarm mode the alarm will be reset.
[Auto]: The frequency converter is controlled either via control terminals or serial communication.
[Potentiometer]: The potentiometer works in two ways depending on the mode in which the frequency converter is running.
In Auto Mode the potentiometer acts as an extra programmable analog input.
In Hand Mode the potentiometer controls local reference.
Arrows [ ] and [ ] toggles between the choices in each menu.
The display indicates the status mode with a small arrow above Status.
The Quick Menu gives easy access to the most frequently used parameters.
1. To enter the Quick Menu, press [MENU] key until indicator in display is placed above Quick Menu.
2. Use [ ] [ ] to select either QM1 or QM2, then press [OK].
3. Use [ ] [ ] to browse through the parameters in the Quick Menu.
4. Press [OK] to select a parameter.
5. Use [ ] [ ] to change the value of a parameter setting.
6. Press [OK] to accept the change.
7. To exit, press either [Back] twice to enter Status, or press [Menu] once to enter Main Menu.
No Name Range Default Function1-20 Motor Power [kW]/[HP] [0.09kW/0.12HP -30kW/40HP] Unit dependent Enter motor power from nameplate data1-22 Motor Voltage [50 - 999V] 230/400 Enter motor voltage from nameplate data1-23 Motor Frequency [20 - 400 Hz] 50 Enter motor frequency form nameplate data1-24 Motor Current [0.01 - 100.00 A] Unit dependent Enter motor current from nameplate data1-25 Motor nominal speed [100 - 9999 RPM] Unit dependent Enter motor nominal speed from nameplate data1-29 Auto Tune [0] = off
[2] = Enable Auto Tune[0] = off Use Auto Tune to optimize motor performance.
1. Stop Drive2. Choose [2]3. "Hand "
3-02 Minimum reference [-4999 - 4999] 0 Enter value for minimum reference3-03 Maximum reference [-4999 - 4999] 50.00 Enter value for maximum reference3-41 Accel time 1 [0.05 - 3600s] 3.00 (10.001)) Accel time from 0 to rated motor frequency par. 1-233-42 Decel time 1 [0.05 - 3600s] 3.00 (10.001)) Decel time form rated motor frequency par. 1-23 to 01) M4 and M5 only
Table 1.4: Basic Settings Quick Menu 1
The Main Menu gives access to all parameters.
1. To enter the Main Menu, press [MENU] key until indicator in display is placed above Main Menu.
2. Use [ ] [ ] to browse through the parameter groups.
3. Press [OK] to select a parameter group.
4. Use [ ] [ ] to browse through the parameters in the specific group.
5. Press [OK] to select the parameter.
6. Use [ ] [ ] to set/change the parameter value.
7. Press [OK] to accept the value.
8. To exit, press either [Back] twice to enter Quick Menu, or press [Menu] once to enter Status.
AF-60 LP Micro Drive
10 DEH-41264A
1
Para
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0-XX
Ope
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figur
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in p
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Mot
or D
ata
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Mot
or P
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[kW
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9 kW
/0.1
2 H
P[2
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2 kW
/0.1
6 H
P[3
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8 kW
/0.2
5 H
P[4
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5 kW
/0.3
3 H
P[5
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7 kW
/0.5
0 H
P[6
] 0.5
5 kW
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5 H
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5 kW
/1.0
0 H
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0 kW
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[11]
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[13]
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23 M
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me
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in S
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0 H
z *
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1-9X
Mot
or T
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ratu
re1-
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No
prot
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mis
tor w
arni
ng[2
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rmis
tor t
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nic
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lect
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one
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nalo
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put 5
3[6
] Dig
ital i
nput
29
2-XX
Bra
kes
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Brak
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00 D
C H
old
Curr
ent
0 - 1
50 %
* 5
0 %
2-01
DC
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e Cu
rren
t0
- 150
% *
50
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02 D
C Br
akin
g Ti
me
0.0
- 60.
0 s
* 10
.0 s
2-04
DC
Brak
e Cu
t In
Spee
d0.
0 - 4
00.0
Hz
* 0.
0 H
z2-
1X B
rake
Ene
rgy
Func
t.2-
10 B
rake
Fun
ctio
n*[
0] O
ff[1
] Res
isto
r bra
ke[2
] AC
brak
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11 B
rake
Res
isto
r (oh
m)
5 - 5
000
* 5
2-16
AC
Brak
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ax c
urre
nt0
- 150
% *
100
%2-
17 O
ver-
volta
ge C
ontr
ol*[
0] D
isab
led
[1] E
nabl
ed (n
ot a
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] Ena
bled
2-2*
Mec
hani
cal B
rake
2-20
Rel
ease
Bra
ke C
urre
nt0.
00 -
100.
0 A
* 0.
00 A
2-22
Act
ivat
e Br
ake
Spee
d [H
z]0.
0 - 4
00.0
Hz
* 0.
0 H
z3-
XX R
efer
ence
/ Ra
mps
3-0X
Ref
eren
ce L
imits
3-00
Ref
eren
ce R
ange
*[0]
Min
- M
ax[1
] -M
ax -
+Max
3-02
Min
imum
Ref
eren
ce-4
999
- 499
9 *
0.00
03-
03 M
axim
um R
efer
ence
-499
9 - 4
999
* 50
.00
3-1X
Ref
eren
ces
3-10
Pre
set R
efer
ence
-100
.0 -
100.
0 %
* 0
.00
%3-
11 J
og S
peed
[Hz]
0.0
- 400
.0 H
z *
5.0
Hz
3-12
Cat
ch u
p/sl
ow D
own
Valu
e0.
00 -
100.
0 %
* 0
.00
%
AF-60 LP Micro Drive
DEH-41264A 11
1
3-14
Pre
set R
elat
ive
Refe
renc
e-1
00.0
- 10
0.0
% *
0.0
0 %
3-15
Ref
eren
ce R
esou
rce
1[0
] No
func
tion
*[1]
Ana
log
Inpu
t 53
[2] A
nalo
g in
put 6
0[8
] Pul
se in
put 3
3[1
1] L
ocal
bus
ref
[21]
Key
pad
Pote
ntio
met
er3-
16 R
efer
ence
Res
ourc
e 2
[0] N
o fu
nctio
n[1
] Ana
log
Inpu
t 53
*[2]
Ana
log
inpu
t 60
[8] P
ulse
inpu
t 33
*[11
] Loc
al b
us re
f[2
1] K
eypa
d Po
tent
iom
eter
3-17
Ref
eren
ce R
esou
rce
3[0
] No
func
tion
[1] A
nalo
g In
put 5
3[2
] Ana
log
inpu
t 60
[8] P
ulse
inpu
t 33
*[11
] Loc
al b
us re
f[2
1] K
eypa
d Po
tent
iom
eter
3-18
Rel
ativ
e Sc
alin
g Re
f. Re
sour
ce*[
0] N
o fu
nctio
n[1
] Ana
log
Inpu
t 53
[2] A
nalo
g in
put 6
0[8
] Pul
se in
put 3
3[1
1] L
ocal
bus
ref
[21]
Key
pad
Pote
ntio
met
er3-
4X A
ccel
/Dec
el 1
3-40
Acc
el/D
ecel
1 P
atte
rn*[
0] L
inea
r[2
] S-S
hape
3-41
Acc
el T
ime
10.
05 -
3600
s *
3.0
0 s
(10.
00 s
1))
3-42
Dec
el T
ime
10.
05 -
3600
s *
3.0
0 s
(10.
00 s
1))
3-5X
Acc
el/D
ecel
23-
50 A
ccel
/Dec
el 2
Pat
tern
*[0]
Lin
ear
[2] S
-Sha
pe3-
51 A
ccel
Tim
e 2
0.05
- 36
00 s
* 3
.00
s (1
0.00
s 1)
)3-
52 D
ecel
Tim
e 2
0.05
- 36
00 s
* 3
.00
s (1
0.00
s1)
)
3-8X
Oth
er R
amps
3-80
Jog
Acc
el a
nd D
ecel
Tim
e0.
05 -
3600
s *
3.0
0 s
(10.
00 s
1))
3-81
Qui
ck S
top
Dec
el T
ime
0.05
- 36
00 s
* 3
.00
s(10
.00
s1) )
4-XX
Lim
its /
War
ning
s4-
1X M
otor
Lim
its4-
10 R
ever
se L
ock
[0] R
ever
se L
ock
[1] R
ever
se*[
2] B
oth
4-12
Mot
or S
peed
Low
Lim
it [H
z]0.
0 - 4
00.0
Hz
* 0.
0 H
z4-
14 M
otor
Spe
ed H
igh
Lim
it [H
z]0.
1 - 4
00.0
Hz
* 65
.0 H
z4-
16 T
orqu
e Li
mit
Mot
or M
ode
0 - 4
00 %
* 1
50 %
4-17
Tor
que
Lim
it G
ener
ator
Mod
e0
- 400
% *
100
%4-
5X A
dj. W
arni
ngs
4-50
War
ning
Cur
rent
Low
0.00
- 10
0.00
A *
0.0
0 A
4-51
War
ning
Cur
rent
Hig
h0.
00 -
100.
00 A
* 1
00.0
0 A
4-58
Mis
sing
Mot
or P
hase
Fun
ctio
n[0
] Off
*[1]
On
4-6X
Jum
p Fr
eque
ncie
s4-
61 J
ump
Freq
uenc
y Fr
om [H
z]0.
0 - 4
00.0
Hz
* 0.
0 H
z4-
63 J
ump
Freq
uenc
yTo
[Hz]
0.0
- 400
.0 H
z *
0.0
Hz
5-1X
Dig
ital I
nput
s5-
10 T
erm
inal
18
Dig
ital I
nput
[0] N
o fu
nctio
n[1
] Res
et[2
] Coa
st in
vers
e[3
] Coa
st a
nd re
set i
nv.
[4] Q
uick
sto
p in
vers
e[5
] DC-
brak
e in
v.[6
] Sto
p in
v*[
8] S
tart
[9] L
atch
ed s
tart
[10]
Rev
ersi
ng[1
1] S
tart
reve
rsin
g[1
2] E
nabl
e st
art f
orw
ard
[13]
Ena
ble
star
t rev
erse
[14]
Jog
[16-
18] P
rese
t ref
bit
0-2
[19]
Fre
eze
refe
renc
e[2
0] F
reez
e ou
tput
[21]
Spe
ed u
p[2
2] S
peed
dow
n[2
3] S
etup
sel
ect b
it 0
[28]
Cat
ch u
p[2
9] S
low
dow
n[3
4] R
amp
bit 0
[60]
Cou
nter
A (u
p)[6
1] C
ount
er A
(dow
n)[6
2] R
eset
cou
nter
A[6
3] C
ount
er B
(up)
[64]
Cou
nter
B (d
own)
[65]
Res
etCo
unte
r B5-
11 T
erm
inal
19
Dig
ital I
nput
See
par.
5-10
. * [1
0] R
ever
sing
5-12
Ter
min
al 2
7 D
igita
l Inp
utSe
e pa
r. 5-
10. *
[1] R
eset
5-13
Ter
min
al 2
9 D
igita
l Inp
utSe
e pa
r. 5-
10. *
[14]
Jog
5-15
Ter
min
al 3
3 D
igita
l Inp
utSe
e pa
r. 5-
10. *
[16]
Pre
set r
ef b
it 0
[26]
Pre
cise
Sto
p In
vers
e[2
7] S
tart
, Pre
cise
Sto
p[3
2] P
ulse
Inpu
t5-
4X R
elay
s5-
40 F
unct
ion
Rela
y*[
0] N
o op
reat
ion
[1] C
ontr
ol re
ady
[2] D
rive
read
y[3
] Driv
e re
ady,
Rem
ote
[4] E
nabl
e / N
o w
arni
ng[5
] Driv
e ru
nnin
g[6
] Run
ning
/ N
o w
arni
ng[7
] Run
in ra
nge
/ No
war
ning
[8] R
un o
n re
f / N
o w
arni
ng[9
] Ala
rm[1
0] A
larm
or w
arni
ng[1
2] O
ut o
f cur
rent
rang
e[1
3] B
elow
cur
rent
, low
[14]
Abo
ve c
urre
nt, h
igh
[21]
The
rmal
war
ning
[22]
Rea
dy, N
o th
erm
al w
arni
ng[2
3] R
emot
e re
ady,
No
ther
mal
war
ning
[24]
Rea
dy, V
olta
ge o
k
[25]
Rev
erse
[26]
Bus
ok
[28]
Bra
ke,N
oWar
n[2
9] B
rake
read
y/N
oFau
lt[3
0] B
rake
Faul
t (IG
BT)
[32]
Mec
h.br
ake
cont
rol
[36]
Con
trol
wor
d bi
t 11
[51]
Loc
al re
f. ac
tive
[52]
Rem
ote
ref.
activ
e[5
3] N
o al
arm
[54]
Sta
rt c
md
activ
e[5
5] R
unni
ng re
vers
e[5
6] D
rive
in h
and
mod
e[5
7] D
rive
in a
uto
mod
e[6
0-63
] Com
para
tor 0
-3[7
0-73
] Log
ic ru
le 0
-3[8
1] L
ogic
Con
trol
ler d
igita
l out
put B
5-5X
Pul
se In
put
5-55
Ter
min
al 3
3 Lo
w F
requ
ency
20 -
4999
Hz
* 20
Hz
5-56
Ter
min
al 3
3 H
igh
Freq
uenc
y21
- 50
00 H
z *
5000
Hz
5-57
Ter
m. 3
3 Lo
w R
ef./
Feed
b. V
alue
-499
9 - 4
999
* 0.
000
5-58
Ter
m. 3
3 H
igh
Ref./
Feed
b. V
alue
-499
9 - 4
999
* 50
.000
6-XX
Ana
log
In/O
ut6-
0X A
nalo
g I/
O M
ode
6-00
Liv
e Ze
ro T
imeo
ut T
ime
1 - 9
9 s
* 10
s6-
01 L
ive
Zero
Tim
eout
Func
tion
*[0]
Off
[1] F
reez
e ou
tput
[2] S
top
[3] J
oggi
ng[4
] Max
spe
ed[5
] Sto
p an
d tr
ip6-
1X A
nalo
g In
put 1
6-10
Ter
min
al 5
3 Lo
w V
olta
ge0.
00 -
9.99
V *
0.0
7 V
6-11
Ter
min
al 5
3 H
igh
Volta
ge0.
01 -
10.0
0 V
* 10
.00
V6-
12 T
erm
inal
53
Low
Cur
rent
0.00
- 19
.99
mA
* 0.
14 m
A
1) M
4 an
d M
5 on
ly
AF-60 LP Micro Drive
12 DEH-41264A
1
6-13
Ter
min
al 5
3 H
igh
Curr
ent
0.01
- 20
.00
mA
* 20
.00
mA
6-14
Ter
m. 5
3 Lo
w R
ef./
Feed
b. V
alue
-499
9 - 4
999
* 0.
000
6-15
Ter
m. 5
3 H
igh
Ref./
Feed
b. V
alue
-499
9 - 4
999
* 50
.000
6-16
Ter
min
al 5
3 Fi
lter T
ime
Cons
tant
0.01
- 10
.00
s *
0.01
s6-
19 T
erm
inal
53
mod
e*[
0] V
olta
ge m
ode
[1] C
urre
nt m
ode
6-2X
Ana
log
Inpu
t 26-
22 T
erm
inal
60
Low
Cur
rent
0.00
- 19
.99
mA
* 0.
14 m
A6-
23 T
erm
inal
60
Hig
h Cu
rren
t0.
01 -
20.0
0 m
A *
20.0
0 m
A6-
24 T
erm
. 60
Low
Ref
./Fe
edb.
Val
ue-4
999
- 499
9 *
0.00
06-
25 T
erm
. 60
Hig
h Re
f./Fe
edb.
Val
ue-4
999
- 499
9 *
50.0
06-
26 T
erm
inal
60
Filte
r Tim
e Co
nsta
nt0.
01 -
10.0
0 s
* 0.
01 s
6-8X
Key
pad
pote
ntio
met
er6-
81 K
eypa
d po
tm. L
ow R
efer
ence
-499
9 - 4
999
* 0.
000
6-82
Key
pad
potm
. Hig
h Re
fere
nce
-499
9 - 4
999
* 50
.00
6-9X
Ana
log
Out
put x
x6-
90 T
erm
inal
42
Mod
e*[
0] 0
-20
mA
[1] 4
-20
mA
[2] D
igita
l Out
put
6-91
Ter
min
al 4
2 An
alog
Out
put
*[0]
No
oper
atio
n[1
0] O
utpu
t Fre
quen
cy[1
1] R
efer
ence
[12]
Fee
dbac
k[1
3] M
otor
Cur
rent
[16]
Pow
er[2
0] B
us R
efer
ence
6-92
Ter
min
al 4
2 D
igita
l Out
put
See
par.
5-40
*[0]
No
Ope
ratio
n[8
0] L
ogic
Con
trol
ler D
igita
l Out
put A
6-93
Ter
min
al 4
2 O
utpu
t Min
Sca
le0.
00 -
200.
0 %
* 0
.00
%6-
94 T
erm
inal
42
Out
put M
ax S
cale
0.00
- 20
0.0
% *
100
.0 %
7-XX
Con
trol
lers
7-2X
Pro
cess
Ctr
l. Fe
edb
7-20
Pro
cess
CL
Feed
back
1 R
esou
rce
*[0]
NoF
unct
ion
[1] A
nalo
g In
put 5
3[2
] Ana
log
inpu
t 60
[8] P
ulse
Inpu
t33
[11]
Loc
alBu
sRef
7-3X
Pro
cess
PI
Ctrl
. 7-3
0 Pr
oces
s PI
Nor
mal
/ Inv
erse
Ctr
l*[
0] N
orm
al[1
] Inv
erse
7-31
Pro
cess
PI A
nti W
indu
p[0
] Dis
able
*[1]
Ena
ble
7-32
Pro
cess
PI S
tart
Spe
ed0.
0 - 2
00.0
Hz
* 0.
0 H
z7-
33 P
roce
ss P
I Pro
port
iona
l Gai
n0.
00 -
10.0
0 *
0.01
7-34
Pro
cess
PI I
nteg
ral T
ime
0.10
- 99
99 s
* 9
999
s7-
38 P
roce
ss P
I Fee
d Fo
rwar
d Fa
ctor
0 - 4
00 %
* 0
%7-
39 O
n Re
fere
nce
Band
wid
th0
- 200
% *
5 %
8-XX
Com
m. a
nd O
ptio
ns8-
0X G
ener
al S
ettin
gs8-
01 C
ontr
ol S
ite*[
0] D
igita
l and
Con
trol
Wor
d[1
] Dig
ital o
nly
[2] C
ontr
olW
ord
only
8-02
Con
trol
Wor
d So
urce
[0] N
one
*[1]
GE
Driv
e RS
485
8-03
Con
trol
Wor
d Ti
meo
ut T
ime
0.1
- 650
0 s
* 1.
0 s
8-04
Con
trol
Wor
d Ti
meo
ut F
unct
ion
*[0]
Off
[1] F
reez
e O
utpu
t[2
] Sto
p[3
] Jog
ging
[4] M
ax. S
peed
[5] S
top
and
trip
8-06
Res
et C
ontr
ol W
ord
Tim
eout
*[0]
No
Func
tion
[1] D
o re
set
8-3X
GE
Dri
ve P
ort S
ettin
gs8-
30 P
roto
col
*[0]
GE
Driv
e[2
] Mod
bus
RTU
8-31
Add
ress
1 - 2
47 *
18-
32 G
E D
rive
Por
t Bau
d Ra
te[0
] 240
0 Ba
ud[1
] 480
0 Ba
ud*[
2] 9
600
Baud
[3] 1
9200
Bau
d[4
] 384
00 B
aud
8-33
GE
Dri
ve P
ort P
arity
*[0]
Eve
n Pa
rity,
1 S
top
Bit
[1] O
dd P
arity
, 1 S
top
Bit
[2] N
o Pa
rity,
1 S
top
Bit
[3] N
o Pa
rity,
2 S
top
Bits
8-35
Min
imum
Res
pons
e D
elay
0.00
1-0.
5 *
0.01
0 s
8-36
Max
Res
pons
e D
elay
0.10
0 - 1
0.00
s *
5.0
00 s
8-5X
Dig
ital/
Bus
8-50
Coa
stin
g Se
lect
[0] D
igita
lInpu
t[1
] Bus
[2] L
ogic
And
*[3]
Log
icO
r8-
51 Q
uick
Sto
p Se
lect
See
par.
8-50
* [3
] Log
icO
r8-
52 D
C Br
ake
Sele
ctSe
e pa
r. 8-
50 *
[3] L
ogic
Or
8-53
Sta
rt S
elec
tSe
e pa
r. 8-
50 *
[3] L
ogic
Or
8-54
Rev
ersi
ng S
elec
tSe
e pa
r. 8-
50 *
[3] L
ogic
Or
8-55
Set
-up
Sele
ctSe
e pa
r. 8-
50 *
[3] L
ogic
Or
8-56
Pre
set R
efer
ence
Sel
ect
See
par.
8-50
* [3
] Log
icO
r
8-9X
Bus
Jog
/ Fe
edba
ck8-
94 B
us fe
edba
ck 1
0x80
00 -
0x7F
FF *
013
-XX
Cont
rolle
r Log
ic13
-0X
Logi
c Co
ntro
ller S
ettin
gs13
-00
Logi
c Co
ntro
ller M
ode
*[0]
Off
[1] O
n13
-01
Star
t Eve
nt[0
] Fal
se[1
] Tru
e[2
] Run
ning
[3] I
nRan
ge[4
] OnR
efer
ence
[7] O
utO
fCur
rent
Rang
e[8
] Bel
owIL
ow[9
] Abo
veIH
igh
[16]
The
rmal
War
ning
[17]
Mai
nOut
OfR
ange
[18]
Rev
ersi
ng[1
9] W
arni
ng[2
0] A
larm
_Trip
[21]
Ala
rm_T
ripLo
ck[2
2-25
] Com
para
tor 0
-3[2
6-29
] Log
icRu
le0-
3[3
3] D
igita
lInpu
t_18
[34]
Dig
italIn
put_
19[3
5] D
igita
lInpu
t_27
[36]
Dig
italIn
put_
29[3
8] D
igita
lInpu
t_33
*[39
] Sta
rtCo
mm
and
[40]
Driv
eSto
pped
13-0
2 St
op E
vent
See
par.
13-0
1 *
[40]
Driv
eSto
pped
13-0
3 Re
set L
ogic
Con
trol
ler
*[0]
Do
not r
eset
[1] R
eset
Log
ic C
ontr
olle
r
AF-60 LP Micro Drive
DEH-41264A 13
1
13-1
X Co
mpa
rato
rs13
-10
Com
para
tor O
pera
nd*[
0] D
isab
led
[1] R
efer
ence
[2] F
eedb
ack
[3] M
otor
Spee
d[4
] Mot
orCu
rren
t[6
] Mot
orPo
wer
[7] M
otor
Volta
ge[8
] DCL
inkV
olta
ge[1
2] A
nalo
gInp
ut53
[13]
Ana
logI
nput
60[1
8] P
ulse
Inpu
t33
[20]
Ala
rmN
umbe
r[3
0] C
ount
erA
[31]
Cou
nter
B13
-11
Com
para
tor O
pera
tor
[0] L
ess
Than
*[1]
App
roxi
mat
ely
equa
ls[2
] Gre
ater
Tha
n13
-12
Com
para
tor V
alue
-999
9 - 9
999
* 0.
013
-2X
Tim
ers
13-2
0 LC
Con
trol
ler T
imer
0.0
- 360
0 s
* 0.
0 s
13-4
X Lo
gic
Rule
s13
-40
Logi
c Ru
le B
oole
an 1
See
par.
13-0
1 *
[0] F
alse
[30]
- [3
2] L
C Ti
me-
out 0
-213
-41
Logi
c Ru
le O
pera
tor 1
*[0]
Dis
able
d[1
] And
[2] O
r[3
] And
not
[4] O
r not
[5] N
ot a
nd[6
] Not
or
[7] N
ot a
nd n
ot[8
] Not
or n
ot13
-42
Logi
c Ru
le B
oole
an 2
See
par.
13-4
0 *
[0] F
alse
13-4
3 Lo
gic
Rule
Ope
rato
r 2Se
e pa
r. 13
-41
* [0
] Dis
able
d13
-44
Logi
c Ru
le B
oole
an 3
See
par.
13-4
0 *
[0] F
alse
13-5
X St
ates
13-5
1 LC
Con
trol
ler E
vent
See
par.
13-4
0 *
[0] F
alse
13-5
2 LC
Con
trol
ler A
ctio
n*[
0] D
isab
led
[1] N
oAct
ion
[2] S
elec
tSet
up1
[3] S
elec
tSet
up2
[10-
17] S
elec
tPre
setR
ef0-
7[1
8] S
elec
t Acc
el/D
ecel
1.
[19]
Sel
ect A
ccel
/Dec
el 2
.[2
2] R
un[2
3] R
unRe
vers
e[2
4] S
top
[25]
Qst
op[2
6] D
Csto
p[2
7] C
oast
[28]
Fre
ezeO
utpu
t[2
9] S
tart
Tim
er0
[30]
Sta
rtTi
mer
1[3
1] S
tart
Tim
er2
[32]
Set
Dig
ital O
utpu
t A L
ow[3
3] S
et D
igita
l Out
put B
Low
[38]
Set
Dig
ital O
utpu
t A H
igh
[39]
Set
Dig
ital O
utpu
t B H
igh
[60]
Res
etCo
unte
rA[6
1] R
eset
Coun
terB
14-X
X Sp
ecia
l Fun
ctio
ns14
-0X
Carr
ier F
requ
ency
14-0
1 M
otor
Noi
se(C
arri
er F
requ
ency
)[0
] 2 k
Hz
*[1]
4 k
Hz
[2] 8
kH
z[4
] 16
kHz
14-0
3 O
verm
odul
atio
n[0
] Off
*[1]
On
14-1
X M
ains
mon
itori
ng14
-12
Func
tion
at m
ains
imba
lanc
e*[
0] T
rip[1
] War
ning
[2] D
isab
led
14-2
X Tr
ip R
eset
14-2
0 Re
set M
ode
*[0]
Man
ual r
eset
[1-9
] Aut
oRes
et 1
-9[1
0] A
utoR
eset
10
[11]
Aut
oRes
et 1
5[1
2] A
utoR
eset
20
[13]
Infin
ite a
uto
rese
t14
-21
Auto
mat
ic R
esta
rt T
ime
0 - 6
00 s
* 1
0 s
14-2
2 Re
stor
e Fa
ctor
y Se
ttin
gs*[
0] N
orm
al O
pera
tion
[2] R
esto
re F
acto
ry S
ettin
gs14
-26
Actio
n At
Dri
ve F
ault
*[0]
Trip
[1] W
arni
ng14
-4X
Ener
gy S
avin
gs14
-41
Ener
gy S
avin
gs M
inim
um M
agne
tisat
ion
40 -
75 %
* 6
6 %
15-X
X D
rive
Info
rmat
ion
15-0
X O
pera
ting
Dat
a15
-00
Ope
ratin
g D
ays
15-0
1 Ru
nnin
g H
ours
15-0
2 kW
h Co
unte
r15
-03
Pow
er U
ps15
-04
Ove
r Tem
ps15
-05
Ove
r Vol
ts15
-06
Rese
t kW
h Co
unte
r*[
0] D
o no
t res
et[1
] Res
et c
ount
er15
-07
Rese
t Run
ning
Hou
rs C
ount
er*[
0] D
o no
t res
et[1
] Res
et c
ount
er15
-3X
Faul
t Log
15-3
0 Fa
ult L
og: E
rror
Cod
e15
-4X
Dri
ve Id
entif
icat
ion
15-4
0 G
E D
rive
Typ
e15
-41
Pow
er S
ectio
n15
-42
Volta
ge15
-43
Soft
war
e Ve
rsio
n15
-46
Freq
uenc
y Co
nver
ter
Ord
er. N
o15
-48
Keyp
ad Id
No
15-5
1 Fr
eque
ncy
Conv
erte
r Se
rial
No
16-X
X D
ata
Read
outs
16-0
X G
ener
al S
tatu
s16
-00
Cont
rol W
ord
0 - 0
XFFF
F16
-01
Refe
renc
e [U
nit]
-499
9 - 4
999
* 0.
000
16-0
2 Re
fere
nce
%-2
00.0
- 20
0.0
% *
0.0
%16
-03
Stat
us W
ord
0 - 0
XFFF
F16
-05
Mai
n Ac
tual
Val
ue [%
]-2
00.0
- 20
0.0
% *
0.0
%16
-09
Cust
om R
eado
utD
ep. o
n pa
r. 0-
31, 0
-32
and
4-14
16-1
X M
otor
Sta
tus
16-1
0 Po
wer
[kW
]16
-11
Pow
er [h
p]16
-12
Mot
or V
olta
ge [V
]16
-13
Freq
uenc
y [H
z]16
-14
Mot
or C
urre
nt [A
]16
-15
Freq
uenc
y [%
]16
-18
Mot
or T
herm
al [%
]16
-3X
Dri
ve S
tatu
s16
-30
DC
Link
Vol
tage
16-3
4 H
eats
ink
Tem
p.16
-35
Inve
rter
The
rmal
16-3
6 D
rive
Nom
inal
cur
rent
16-3
7 D
rive
Max
imum
Cur
rent
16-3
8 Lo
gic
Cont
rolle
r Sta
te16
-5X
Ref.
/ Fee
db.
16-5
0 Ex
tern
al R
efer
ence
16-5
1 Pu
lse
Refe
renc
e16
-52
Feed
back
[Uni
t]16
-6X
Inpu
ts /
Out
puts
16-6
0 D
igita
l Inp
ut 1
8,19
,27,
330
- 111
116
-61
Dig
ital I
nput
29
0 - 1
16-6
2 An
alog
Inpu
t 53
(vol
t)16
-63
Anal
og In
put 5
3 (c
urre
nt)
16-6
4 An
alog
Inpu
t 60
16-6
5 An
alog
Out
put 4
2 [m
A]16
-68
Puls
e In
put [
Hz]
16-7
1 Re
lay
Out
put [
bin]
16-7
2 Co
unte
r A
16-7
3 Co
unte
r B
16-8
X Fi
eldb
us /
GE
Dri
ve P
ort
16-8
6 G
E D
rive
Por
t REF
10x
8000
- 0x
7FFF
F16
-9X
Dia
gnos
is R
eado
uts
16-9
0 Al
arm
Wor
d0
- 0XF
FFFF
FFF
16-9
2 W
arni
ng W
ord
0 - 0
XFFF
FFFF
F16
-94
Ext.
Stat
us W
ord
0 - 0
XFFF
FFFF
F18-
XX E
xten
ded
Mot
or D
ata
18-8
X M
otor
Res
isto
rs18
-80
Stat
or R
esis
tanc
e (H
igh
reso
lutio
n)0.
000
- 99.
990
ohm
* 0
.000
ohm
18-8
1 St
ator
Lea
kage
Rea
ctan
ce(H
igh
reso
lutio
n)0.
000
- 99.
990
ohm
* 0
.000
ohm
AF-60 LP Micro Drive
14 DEH-41264A
1
No. Description Warning Alarm TripLock
Error Cause of Problem
2 Live zero error X X Signal on terminal 53 or 60 is less than 50% of value set in par. 6-10,6-12 and 6-22.
4 Mains phase loss1) X X X Missing phase on supply side, or too high voltage imbalance. Checksupply voltage.
7 DC over voltage1) X X Intermediate circuit voltage exceeds limit.8 DC under voltage1) X X Intermediate circuit voltage drops below voltage warning low limit.9 Driveoverloaded X X More than 100% load for too long.10 Motor Electronic Overload over
temperatureX X Motor is too hot due to more than 100% load for too long.
11 Motor thermistor over tempera-ture
X X Thermistor or thermistor connection is disconnected.
12 Torque limit X Torque exceeds value set in either par. 4-16 or 4-17.13 Over Current X X X Drive current limit is exceeded.14 Earth fault X X Discharge from output phases to ground.16 Short Circuit X X Short-circuit in motor or on motor terminals.17 Control word timeout X X No communication to frequency converter.25 Brake resistor short-circuited X X Brake resistor is short-circuited, thus brake function is disconnected.27 Brake chopper short-circuited X X Brake transistor is short-circuited, thus brake function is disconnec-
ted.28 Brake check X Brake resistor is not connected/working29 Power board over temp X X X Heat-sink cut-out temperature has been reached.30 Motor phase U missing X X Motor phase U is missing. Check the phase.31 Motor phase V missing X X Motor phase V is missing. Check the phase.32 Motor phase W missing X X Motor phase W is missing. Check the phase.38 Internal fault X X Contact local GE supplier.44 Earth fault X X Discharge from output phases to ground.47 Control Voltage Fault X X 24 V DC may be overloaded.51 Auto Tune check Unom and Inom X Wrong setting for motor voltage and/or motor current.52 Auto Tune low Inom X Motor current is too low. Check settings.59 Current limit X Drive overload.63 Mechanical Brake Low X Actual motor current has not exceeded release brake current
within start delay time window.80 Drive restored to Factory Settings X All parameter settings are restored to factory default settings.84 The connection between drive
and Keypad is lost X No communication between Keypad and frequency converter
85 Button disabled X See parameter group 0-4* Keypad86 Copy fail X An error occurred while copying from frequency converter to
Keypad or vice versa.87 Keypad data invalid X Occurs when copying from Keypad if the Keypad contains errone-
ous data - or if no data was uploaded to the Keypad.88 Keypad data not compatible X Occurs when copying from Keypad if data are moved between fre-
quency converters with major differences in software versions.89 Parameter read only X Occurs when trying to write to a read-only parameter.90 Parameter database busy X Keypad and RS485 connection are trying to update parameters si-
multaneously.91 Parameter value is not valid in this
mode X Occurs when trying to write an illegal value to a parameter.
92 Parameter value exceeds themin/max limits
X Occurs when trying to set a value outside the range.
nwrun
Not While RUNning X Parameter can only be changed when the motor is stopped.
Err. A wrong password was entered X Occurs when using a wrong password for changing a password-protected parameter.
1) These faults may be caused by mains distortions. Installing GE Line Filter may rectify this problem.
Table 1.5: Warnings and AlarmsCode list
AF-60 LP Micro Drive
DEH-41264A 15
1
1.1.18 Mains Supply 1 x 200 - 240 VAC
Normal overload 150% for 1 minuteFrequency converterTypical Shaft Output [kW] 0.18 0.37 0.75 1.5 2.2Typical Shaft Output [HP] 0.25 0.5 1 2 3
IP 20 Unit Size
M1Unit Size
M1Unit Size
M1Unit Size
M2Unit Size
M3Output current
Continuous (1 x 200-240 V ) [A] 1.2 2.2 4.2 6.8 9.6Intermittent (1 x 200-240 V ) [A] 1.8 3.3 6.3 10.2 14.4Max. cable size:(mains, motor) [mm2 /AWG] 4/10
Max. input currentContinuous (1 x 200-240 V ) [A] 3.3 6.1 11.6 18.7 26.4Intermittent (1 x 200-240 V ) [A] 4.5 8.3 15.6 26.4 37.0Max. mains fuses [A] See Section FusesEnvironmentEstimated power loss [W], Best case/Typical1)
12.5/15.5
20.0/25.0
36.5/44.0
61.0/67.0
81.0/85.1
Weight enclosure IP20 [kg] 1.1 1.1 1.1 1.6 3.0
Efficiency [%], Best case/Typical1)95.6/94.5
96.5/95.6
96.6/96.0
97.0/96.7
96.9/97.1
Table 1.6: Mains supply 1 x 200 - 240 VAC
1. At rated load conditions.
1.1.19 Mains Supply 3 x 200 - 240 VAC
Normal overload 150% for 1 minuteFrequency converterTypical Shaft Output [kW] 0.25 0.37 0.75 1.5 2.2 3.7Typical Shaft Output [HP] 0.33 0.5 1 2 3 5
IP 20 Unit Size
M1Unit Size
M1Unit Size
M1Unit Size
M2Unit Size
M3Unit Size
M3Output current
Continuous (3 x 200-240 V ) [A] 1.5 2.2 4.2 6.8 9.6 15.2Intermittent (3 x 200-240 V ) [A] 2.3 3.3 6.3 10.2 14.4 22.8Max. cable size:
(mains, motor) [mm2 /AWG] 4/10
Max. input current
Continuous (3 x 200-240 V ) [A] 2.4 3.5 6.7 10.9 15.4 24.3Intermittent (3 x 200-240 V ) [A] 3.2 4.6 8.3 14.4 23.4 35.3Max.mains fuses [A] See Section FusesEnvironment Estimated power loss [W], Best case/Typical1)
14.0/20.0
19.0/24.0
31.5/39.5
51.0/57.0
72.0/77.1
115.0/122.8
Weight enclosure IP20 [kg] 1.1 1.1 1.1 1.6 3.0 3.0
Efficiency [%], Best case/Typical1)96.4/94.9
96.7/95.8
97.1/96.3
97.4/97.2
97.2/97.4
97.3/97.4
Table 1.7: Mains supply 3 x 200 - 240 VAC
1. At rated load conditions.
AF-60 LP Micro Drive
16 DEH-41264A
1
1.1.20 Mains Supply 3 x 380 - 480 VAC
Normal overload 150% for 1 minuteFrequency converterTypical Shaft Output [kW] 0.37 0.75 1.5 2.2 3.0 4.0
Typical Shaft Output [HP] 0.5 1 2 3 4 5
IP 20 Unit Size
M1Unit Size
M1Unit Size
M2Unit Size
M2Unit Size
M3Unit Size
M3Output current
Continuous (3 x 380-440 V) [A] 1.2 2.2 3.7 5.3 7.2 9.0Intermittent (3 x 380-440 V) [A] 1.8 3.3 5.6 8.0 10.8 13.7Continuous (3 x 440-480 V) [A] 1.1 2.1 3.4 4.8 6.3 8.2Intermittent (3 x 440-480 V) [A] 1.7 3.2 5.1 7.2 9.5 12.3Max. cable size:(mains, motor) [mm2/ AWG] 4/10
Max. input currentContinuous (3 x 380-440 V ) [A] 1.9 3.5 5.9 8.5 11.5 14.4Intermittent (3 x 380-440 V ) [A] 2.6 4.7 8.7 12.6 16.8 20.2Continuous (3 x 440-480 V ) [A] 1.7 3.0 5.1 7.3 9.9 12.4Intermittent (3 x 440-480 V ) [A] 2.3 4.0 7.5 10.8 14.4 17.5Max. mains fuses [A] See Section FusesEnvironmentEstimated power loss [W], Best case/Typical1)
18.5/25.5
28.5/43.5
41.5/56.5
57.5/81.5
75.0/101.6
98.5/133.5
Weight enclosure IP20 [kg] 1.1 1.1 1.6 1.6 3.0 3.0
Efficiency [%], Best case/Typical1)
96.8/95.5
97.4/96.0
98.0/97.2
97.9/97.1
98.0/97.2
98.0/97.3
Table 1.8: Mains supply 3 x 380 - 480 VAC
1. At rated load conditions.
Normal overload 150% for 1 minuteFrequency converterTypical Shaft Output [kW] 5.5 7.5 11 15 18.5 22
Typical Shaft Output [HP] 7.5 10 15 20 25 30
IP 20 Unit Size
M3Unit Size
M3Output current
Continuous (3 x 380-440 V) [A] 12.0 15.5 23.0 31.0 37.0 43.0Intermittent (3 x 380-440 V) [A] 18.0 23.5 34.5 46.5 55.5 64.5Continuous (3 x 440-480 V) [A] 11.0 14.0 21.0 27.0 34.0 40.0
Intermittent (3 x 440-480 V) [A]16.5 21.3 31.5 40.5 51.0 60.0
Max. cable size:(mains, motor) [mm2/ AWG] 4/10 16/6
Max. input currentContinuous (3 x 380-440 V ) [A] 19.2 24.8 33.0 42.0 34.7 41.2Intermittent (3 x 380-440 V ) [A] 27.4 36.3 47.5 60.0 49.0 57.6Continuous (3 x 440-480 V ) [A] 16.6 21.4 29.0 36.0 31.5 37.5Intermittent (3 x 440-480 V ) [A] 23.6 30.1 41.0 52.0 44.0 53.0Max. mains fuses [A] See Section FusesEnvironmentEstimated power loss [W], Best case/Typical1)
131.0/166.8
175.0/217.5
290.0/342.0
387.0/454.0
395.0/428.0
467.0/520.0
Weight enclosure IP20 [kg] 3.0 3.0 Efficiency [%], Best case/Typical1)
98.0/97.5
98.0/97.5
97.8/97.4
97.7/97.4
98.1/98.0
98.1/97.9
Table 1.9: Mains supply 3 x 380 - 480 VAC
1. At rated load conditions.
AF-60 LP Micro Drive
DEH-41264A 17
1
Protection and Features:
Electronic thermal motor protection against overload.
Temperature monitoring of the heatsink ensures that the frequency converter trips in case of overtemperature
The frequency converter is protected against short-circuits between motor terminals U, V, W.
If a motor phase is missing, the frequency trips and issues an alarm.
If a mains phase is missing, the frequency converter trips or issues a warning (depending on the load).
Monitoring of the intermediate circuit voltage ensures that the frequency converter trips if the intermediate circuit voltage is too low or too high.
The frequency converter is protected against earth faults on motor terminals U, V, W.
Mains supply (L1/L, L2, L3/N):
Supply voltage 200-240 V 10%
Supply voltage 380-480 V 10%
Supply frequency 50/60 Hz
Max. imbalance temporary between mains phases 3.0 % of rated supply voltage
True Power Factor ( ) 0.4 nominal at rated load
Displacement Power Factor (cos ) near unity (> 0.98)
Switching on input supply L1/L, L2, L3/N (power-ups) maximum 2 times/min.
Environment according to EN60664-1 overvoltage category III/pollution degree 2
The unit is suitable for use on a circuit capable of delivering not more than 100.000 RMS symmetrical Amperes, 240/480 V maximum.
Motor output (U, V, W):
Output voltage 0 - 100% of supply voltage
Output frequency 0-200 Hz (Adv Vector Control), 0-400 Hz (u/f)
Switching on output Unlimited
Ramp times 0.05 - 3600 sec.
Cable lengths and cross sections:
Max. motor cable length, screened/armoured (EMC correct installation) 15 m
Max. motor cable length, unscreened/unarmoured 50 m
Max. cross section to motor, mains*
Connection to load sharing/brake (M1, M2, M3) 6.3 mm insulated Faston Plugs
Max. cross section to load sharing/brake (M4, M5) 16 mm2/6AWG
Maximum cross section to control terminals, rigid wire 1.5 mm2/16 AWG (2 x 0.75 mm2)
Maximum cross section to control terminals, flexible cable 1 mm2/18 AWG
Maximum cross section to control terminals, cable with enclosed core 0.5 mm2/20 AWG
Minimum cross section to control terminals 0.25 mm2
* See tables for mains supply for more information!
Digital inputs (Pulse/enocder inputs):
Programmable digital inputs (Pulse/encoder) 5 (1)
Terminal number 18, 19, 27, 29, 33,
Logic PNP or NPN
Voltage level 0 - 24 V DC
Voltage level, logic'0' PNP < 5 V DC
Voltage level, logic'1' PNP > 10 V DC
Voltage level, logic '0' NPN > 19 V DC
Voltage level, logic '1' NPN < 14 V DC
Maximum voltage on input 28 V DC
Input resistance, Ri approx. 4 k
Max. pulse frequency at terminal 33 5000 Hz
Min. pulse frequency at terminal 33 20 Hz
Analog inputs:
Number of analog inputs 2
Terminal number 53, 60
Voltage mode (Terminal 53) Switch S200=OFF(U)
Current mode (Terminal 53 and 60) Switch S200=ON(I)
Voltage level 0 -10 V
Input resistance, Ri approx. 10 k
AF-60 LP Micro Drive
18 DEH-41264A
1
Max. voltage 20 V
Current level 0/4 to 20 mA (scaleable)
Input resistance, Ri approx. 200
Max. current 30 mA
Analog output:
Number of programmable analog outputs 1
Terminal number 42
Current range at analog output 0/4 - 20 mA
Max. load to common at analog output 500
Max. voltage at analog output 17 V
Accuracy on analog output Max. error: 0.8 % of full scale
Resolution on analog output 8 bit
Control card, RS-485 serial communication:
Terminal number 68 (P,TX+, RX+), 69 (N,TX-, RX-)
Terminal number 61 Common for terminals 68 and 69
Control card, 24 V DC output:
Terminal number 12
Max. load (M1 and M2) 160 mA
Max. load (M3) 30 mA
Max. load (M4 and M5) 200 mA
Relay output:
Programmable relay output 1
Relay 01 Terminal number 01-03 (break), 01-02(make)
Max. terminal load (AC-1)1) on 01-02 (NO) (Resistive load) 250 V AC, 2 A
Max. terminal load (AC-15)1) on 01-02 (NO) (Inductive load @ cos 0.4) 250 V AC, 0.2 A
Max. terminal load (DC-1)1) on 01-02 (NO) (Resistive load) 30 V DC, 2 A
Max. terminal load (DC-13)1) on 01-02 (NO) (Inductive load) 24 V DC, 0.1A
Max. terminal load (AC-1)1) on 01-03 (NC) (Resistive load) 250 V AC, 2 A
Max. terminal load (AC-15)1) on 01-03 (NC) (Inductive load @ cos 0.4) 250 V AC, 0.2A
Max. terminal load (DC-1)1) on 01-03 (NC) (Resistive load) 30 V DC, 2 A
Min. terminal load on 01-03 (NC), 01-02 (NO) 24 V DC 10 mA, 24 V AC 20 mA
Environment according to EN 60664-1 overvoltage category III/pollution degree 2
1) IEC 60947 part 4 and 5
Control card, 10 V DC output:
Terminal number 50
Output voltage 10.5 V 0.5 V
Max. load 25 mA
NB!
All inputs, outputs, circuits, DC supplies and relay contacts are galvanically isolated from the supply voltage (PELV) and other high-voltage terminals.
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Surroundings:
Enclosure IP 20
Enclosure kit available IP 21, TYPE 1
Vibration test 1.0 g
Max. relative humidity 5% - 95%(IEC 60721-3-3; Class 3K3 (non-condensing) during operation
Aggressive environment (IEC 60721-3-3), coated class 3C3
Test method according to IEC 60068-2-43 H2S (10 days)
Ambient temperature Max. 40 C
Derating for high ambient temperature, see section on special conditions
Minimum ambient temperature during full-scale operation 0 C
Minimum ambient temperature at reduced performance - 10 C
Temperature during storage/transport -25 - +65/70 C
Maximum altitude above sea level without derating 1000 m
Maximum altitude above sea level with derating 3000 m
Derating for high altitude, see section on special conditions
Safety standards EN/IEC 61800-5-1, UL 508C
EMC standards, Emission EN 61800-3, EN 61000-6-3/4, EN 55011, IEC 61800-3
EMC standards, Immunity
EN 61800-3, EN 61000-6-1/2, EN 61000-4-2, EN 61000-4-3,
EN 61000-4-4, EN 61000-4-5, EN 61000-4-6
See section on special conditions
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1.1.21 Derating for Ambient Temperature
The ambient temperature measured over 24 hours should be at least 5 C lower than the max. ambient temperature.
If the frequency converter is operated at high ambient temperature, the continuous output current should be decreased.
The frequency converter has been designed for operation at max 50 C ambient temperature with one motor size smaller than nominal. Continuous operation
at full load at 50 C ambient temperature will reduce the lifetime of the frequency converter.
1.1.22 Derating for Low Air Pressure
The cooling capability of air is decreased at low air pressure.
For altitudes above 2000 m, please contact GE .
Below 1000 m altitude no de-rating is necessary but above 1000 m the ambient temperature or the maximum output current should be decreased.
Decrease the output by 1% per 100 m altitude above 1000 m or reduce the max. ambient temperature by 1 degree per 200 m
1.1.23 Derating for Running at Low Speeds
When a motor is connected to at frequency converter, it is necessary to check that the cooling of the motor is adequate.
A problem may occur at low speeds in constant torque applications. Running continuously at low speeds below half the nominal motor speed may require
additional air cooling. Alternatively, choose a larger motor (one size up).
Ordering No Description
KYPDACLP1 Keypad with potentiometer
RMKYPDACLP1 Remote Mounting Kit for Keypad incl. 3 m cable , IP21 rated
NEMA1ACLP1 Nema Type 1 kit for Unit Size M1
NEMA1ACLP2 Type 1 kit for Unit Size M2
NEMA1ACLP3 Type 1 kit for Unit Size M3
DEPLTACLP1 De-coupling plate kit for Unit Sizes M1 and M2
DEPLTACLP2 De-coupling plate kit for Unit Size M3
for M1 frame
RMACLP1 DIN rail mounting kit for M1 Unit Size
NEMA1ACLP4 Type 1 kit for Unit Size M4
NEMA1ACLP5 Type 1 kit for Unit Size M5
DEPLTACLP3 De-coupling plate kit for M4 and M5 frames
GE Line Filters and brake resistors are available upon request.
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1 Gua rpida
1.1.1 Advertencias
Advertencia de alta tensin:
La tensin del convertidor de frecuencia es peligrosa cuando el equipo est conectado a la red. La instalacin incorrecta del motor o del
convertidor de frecuencia puede producir daos en el equipo, lesiones fsicas graves e incluso la muerte. Por tanto, es muy importante
respetar las instrucciones de este manual, as como las normas y reglamentos de seguridad vigentes locales y nacionales.
Advertencia:
El contacto con los componentes elctricos puede llegar a provocar la muerte, incluso una vez desconectado el equipo de la red de alimen-
tacin.
Asegrese de haber desconectado todas las entradas de tensin restantes (conexin del circuito intermedio de CC).
Tenga en cuenta que puede haber alta tensin en el enlace de CC aunque los indicadores LED estn apagados.
Antes de tocar cualquier componente del convertidor de frecuencia que pudiera tener tensin, espere al menos 4 minutos para todos los
tamaos M1, M2 y M3.
Espere 15 minutos, como mnimo, para todos los tamaos M4 y M5.
Corriente de fuga:
La corriente de fuga a tierra del convertidor de frecuencia sobrepasa los 3,5 mA. Segn IEC 61800-5-1, debe garantizarse una conexin a
tierra protectora reforzada por medio de un cable a tierra de Cu, 10 mm (mnimo), o un cable a tierra adicional (con la misma seccin que
el cable de alimentacin de red) se debe terminar por separado.
Dispositivo de corriente residual:
Este producto puede originar corriente CC en el conductor de proteccin. Cuando se utiliza un dispositivo de corriente residual (RCD) para
proteccin adicional, slo debe utilizarse un RCD de tipo B (retardo de tiempo) en la alimentacin de este producto.
La conexin protectora a tierra del convertidor de frecuencia y la utilizacin de rels diferenciales RCD debe realizarse siempre conforme a
las normas nacionales y locales.
Proteccin trmica del motor:
La proteccin de sobrecarga del motor es posible ajustando el parmetro 1-90 Proteccin trmica motor. Para el mercado norteamerica-
no: la funcin proporciona proteccin de sobrecarga del motor clase 20, de acuerdo con NEC.
Instalacin en altitudes elevadas:
Para altitudes superiores a 2 km, pngase en contacto con GE.
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1.1.2 Instrucciones de seguridad
Asegrese de que el convertidor de frecuencia est conectado a tierra correctamente.
No retire las conexiones de la red de alimentacin, ni las del motor u otras conexiones de alimentacin mientras el convertidor de frecuencia est
conectado a la red.
Proteja a los usuarios de la tensin de alimentacin.
Proteja el motor frente a las sobrecargas conforme a la normativa vigente local y nacional.
La corriente de fuga a tierra supera los 3,5 mA.
La tecla [Off] (Apagar) no es un interruptor de seguridad. No desconecta el convertidor de frecuencia de la red de alimentacin.
1.1.3 Documentacin disponible
NOTA!
Esta gua rpida contiene la informacin bsica necesaria para la instalacin y puesta en funcionamiento del convertidor.
Si necesita informacin adicional, la siguiente documentacin puede descargarse de www.geelectrical.com/drives
1.1.4 Aprobaciones
1.1.5 Red de alimentacin IT
Red de alimentacin IT
Instalacion con una fuente aislada, es decir, redes IT.
Tensin mx. de alimentacin permitida conectado a la red: 440 V.
Para mejorar el rendimiento de los armnicos, GE ofrece filtros de lnea opcionales.
1.1.6 Evitar arranques accidentales
Cuando el convertidor de frecuencia est conectado a la red de alimentacin, el motor puede arrancarse o pararse mediante los comandos digitales, los
comandos del bus, las referencias o desde el teclado del convertidor.
Desconecte el convertidor de frecuencia de la red de alimentacin cuando as lo dicten las consideraciones de seguridad del personal, para evitar el
arranque accidental de cualquier motor.
Para evitar arranques accidentales, active siempre la tecla [OFF] antes de modificar cualquier parmetro.
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1.1.7 Instrucciones para desecho del equipo
Los equipos que contienen componentes elctricos no deben desecharse junto con los desperdicios domsticos.
Debe recogerse de forma independiente con los residuos elctricos y electrnicos de acuerdo con la legislacin
local actualmente vigente.
1.1.8 Antes de iniciar tareas de reparacin
1. Desconecte el Convertidor AF-60 LP Micro de la red elctrica (y del suministro de CC externo, si lo hubiera).
2. Espere 4 minutos (M1, M2 y M3) 15 minutos (M4 y M5) para que se descargue el enlace de CC.
3. Desconecte los terminales del bus de CC y de freno (si existen)
4. Retire el cable del motor
1.1.9 Montaje lado a lado
El convertidor de frecuencia puede montarse al lado de unidades IP 20 y requiere 100 mm de espacio libre por encima y por debajo para su refrigeracin.
Consulte en las especificaciones hacia el final de este documento los detalles de valores nominales ambientales.
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1.1.10 Dimensiones mecnicas
En la solapa del embalaje encontrar una plantilla para taladrar.
Ilustracin 1.1: Dimensiones mecnicas.
Potencia (kW) Altura (mm) Anchura (mm) Profundidad1)(mm)
mx. mx.
Tama-o de
unidad1 X 200-240 V 3 X200 -240 V
3 X380-480 V A
A (incluida laplaca de desa-coplamiento)
a B b C Kg
M1 0,18 - 0,75 0,25 - 0,75 0,37 - 0,75 150 205 140,4 70 55 148 1,1M2 1,5 1,5 1,5 - 2,2 176 230 166,4 75 59 168 1,6M3 2,2 2,2 -3,7 4,0 - 7,5 239 294 226 90 69 194 3,0M4 11,0-15,0 M5 18,5-22,0
1) Para Teclado con potencimetro, aadir 7,6 mm.
Tabla 1.1: Dimensiones mecnicas
1.1.11 Instalacin elctrica en general
NOTA!
Todos los cableados deben cumplir las normas nacionales y locales sobre las secciones de cables y temperatura ambiente. Se recomienda usar conductores
de cobre (de 60 a 75 C).
Detalles de pares de apriete de los terminales.
Potencia (kW) Par [Nm]Tamao de
unidad 1 x 200-240 V 3 x 200-240 V 3 x 380-480 V Lnea VelocidadConexin CC/
Freno1)Terminalesde control
Toma de tie-rra Rel
M1 0,18 - 0,75 0,25 - 0,75 0,37 - 0,75 1,4 0,7 - 0,15 3 0,5M2 1,5 1,5 1,5 - 2,2 1,4 0,7 - 0,15 3 0,5M3 2,2 2,2 - 3,7 3,0 - 7,5 1,4 0,7 - 0,15 3 0,5M4 11,0-15,0 M5 18,5-22,0
1) Conectores tipo pala (conectores de 6,3 mm Faston)
Tabla 1.2: Apriete de los terminales.
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1.1.12 Fusibles
Proteccin de circuito derivado:
Para proteger la instalacin frente a peligros elctricos e incendios, todos los circuitos derivados de una instalacin, aparatos de conexin, mquinas, etc.,
deben estar protegidos frente a cortocircuitos y sobreintensidades de acuerdo con las normativas nacionales e internacionales.
Proteccin contra cortocircuito:
El convertidor es apto para un circuito capaz de suministrar un mximo de 100.000 Arms (simtrico), 480 V mx.
Proteccin de sobreintensidad:
Proporciona una proteccin para evitar el sobrecalentamiento de los cables en la instalacin. La proteccin frente a sobreintensidad siempre debe llevarse a
cabo segn las normas vigentes.
No conformidad con UL:
Si no es necesario cumplir las normas UL/cUL, GE recomienda utilizar los fusibles que se indican en la tabla siguiente, que garantizan el cumplimiento de la
norma EN50178/IEC61800-5-1:
En caso de mal funcionamiento, si no se sigue esta recomendacin, podran producirse daos en el convertidor de frecuencia.
ConvertidorAF-60 LPMicro
ULFusibles mx. no
ULBussmann Bussmann Bussmann Littel fuse Ferraz-ShawmutFerraz-
Shawmut1 X 200-240 VHP Tipo RK1 Tipo J Tipo T Tipo RK1 Tipo CC Tipo RK1 Tipo gG1/4 - 1/2 KTN-R15 JKS-15 JJN-15 KLN-R15 ATM-R15 A2K-15R 15A1 KTN-R25 JKS-25 JJN-25 KLN-R25 ATM-R25 A2K-25R 25A2 KTN-R35 JKS-35 JJN-35 KLN-R35 - A2K-35R 35A3 KTN-R45 JKS-45 JJN-45 KLN-R45 - A2K-45R 45A3 x 200-240 V1-3 KTN-R10 JKS-10 JJN-10 KLN-R10 ATM-R10 A2K-10R 10A1-2 KTN-R15 JKS-15 JJN-15 KLN-R15 ATM-R15 A2K-15R 15A1 KTN-R20 JKS-20 JJN-20 KLN-R20 ATM-R20 A2K-20R 20A2 KTN-R25 JKS-25 JJN-25 KLN-R25 ATM-R25 A2K-25R 25A3 KTN-R40 JKS-40 JJN-40 KLN-R40 ATM-R40 A2K-40R 40A5 KTN-R40 JKS-40 JJN-40 KLN-R40 - A2K-40R 40A3 x 380-480 V1/2 - 1 KTS-R10 JKS-10 JJS-10 KLS-R10 ATM-R10 A6K-10R 10A2 KTS-R15 JKS-15 JJS-15 KLS-R15 ATM-R15 A2K-15R 16A3 KTS-R20 JKS-20 JJS-20 KLS-R20 ATM-R20 A6K-20R 20A4 KTS-R40 JKS-40 JJS-40 KLS-R40 ATM-R40 A6K405R 40A5 KTS-R40 JKS-40 JJS-40 KLS-R40 ATM-R40 A6K-40R 40A7.5 KTS-R40 JKS-40 JJS-40 KLS-R40 - A6K-40R 40A10 KTS-R40 JKS-40 JJS-40 KLS-R40 - A6K-40R 40A15 KTS-R60 JKS-60 JJS-60 KLS-R60 - A6K-60R 63A20 KTS-R60 JKS-60 JJS-60 KLS-R60 - A6K-60R 63A25 KTS-R60 JKS-60 JJS-60 KLS-R60 - A6K-60R 80A30 KTS-R60 JKS-60 JJS-60 KLS-R60 - A6K-60R 80A
Tabla 1.3: Fusibles
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1.1.13 Conexin a la red elctrica y al motor
El convertidor de frecuencia est diseado para controlar todos los motores estndar trifsicos asncronos.
El convertidor de frecuencia esta diseado para aceptar cables de red y de motor con una seccin mxima de 4 mm2/10 AWG (M1, M2 y M3) y de 16 mm2/6
AWG (M4 y M5).
Utilice un cable de motor apantallado/blindado para cumplir con las especificaciones de emisin EMC y conecte este cable tanto a la placa de desa-
coplamiento como al metal del motor.
Mantenga el cable del motor tan corto como sea posible para reducir el nivel del ruido y las corrientes de fuga.
Paso 1: Conecte primero los cables de toma de tierra al terminal de tierra.
Paso 2: Conecte el motor a los terminales U, V y W.
Paso 3: Conecte las tres fases de la red de alimentacin a los terminales
L1 , L2 y
L3/N (trifsico) o L1/L y L3/N (monofsico), y apriete las conexiones.
Ilustracin 1.2: Montaje del cable de toma de tierra, de la red
elctrica y de los cables de motor.
1.1.14 Terminales de control
Todos los terminales de los cables de control se encuentran situados en la
parte delantera del convertidor de frecuencia, bajo la tapa de terminales.
Desmonte la tapa de terminales utilizando un destornillador.
Ilustracin 1.3: Desmontaje de la tapa de terminales.
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La siguiente ilustracin muestra todos los terminales de control del convertidor. Al aplicar Arrancar (term. 18) y una referencia analgica (term. 53 o 60), el
convertidor de frecuencia se pone en funcionamiento.
Ilustracin 1.4: Visin general de los terminales de control con configuracin PNP y ajustes de fbrica.
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1.1.15 Circuito de potencia - Presentacin
Ilustracin 1.5: Diagrama que muestra todos los terminales elctricos.
m* Freno (BR+ y BR-) no son aplicables para el tamao de unidad M1.
GE dispone de resistencias de freno.
Se puede mejorar el factor de potencia y el rendimiento EMC instalando los filtros de lnea opcionales de GE.
Tambin pueden utilizarse los filtros de potencia de GE para compartir carga.
1.1.16 Carga compartida/Freno
Utilice conectores Faston aislados de 6,3 mm diseados para soportar altas tensiones de CC (carga compartida y freno).
Carga compartida: conecte terminales UDC- y UDC/BR+.
Freno: conecte terminales BR- y UDC/BR+.
Tenga en cuenta que puede haber una tensin de hasta 850 V CC entre los terminales
UDC+/BR+ y UDC-. No estn protegidos frente a cortocircuitos.
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1.1.17 Programacin con Teclado
Si desea obtener informacin detallada sobre la programacin, consulte la Gua de programacin, Convertidor Micro AF-60 LP .
NOTA!
El convertidor de frecuencia puede programarse tambin desde un PC a travs del puerto de comunicaciones RS485, instalando el DCT-10 Control Tool.
Este software se puede descargar desde el sitio web de GE: www. geelectrical.com/drives
Ilustracin 1.6: Descripcin de los botones y el display del Teclado
Utilice la tecla [MENU] para seleccionar uno de los mens siguientes:
Estado (Status):
Solo para lectura de datos.
Quick Menu (Men rpido):
Para acceso a los mens rpidos 1 y 2, respectivamente.
Main Menu (Men principal):
Para acceder a todos los parmetros.
Teclas de navegacin:
[Back] (Atrs): para retroceder al paso o nivel previo en la estructura de na-
vegacin.
Botones de flecha : para desplazarse entre grupos de parmetros, en-
tre parmetros y dentro de stos.
[OK] (Aceptar): para seleccionar un parmetro y para confirmar la modifi-
caciones de los ajustes de parmetros.
Teclas de funcionamiento:
Un luz amarilla sobre las teclas de operacin indica la tecla activa,
[Hand]: arranca el motor y habilita el control del convertidor de frecuencia a travs del Teclado.
[Off/Reset]: para el motor (off). Si est en modo de alarma, la alarma se reiniciar.
[Auto]: el convertidor de frecuencia se controla a travs de los terminales de control o a travs de la comunicacin serie.
[Potencimetro]: El potencimetro funciona de dos maneras diferentes, dependiendo del modo en el que est funcionando el convertidor de frecuencia.
En Auto Mode, el potencimetro acta como una entrada analgica programable adicional.
En modo Hand , el potencimetro controla la referencia local.
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Utilice las flechas [ ] y [ ] para desplazarse entre las diferentes opciones de cada men.
El display indica el modo de estado con una pequea flecha encima de Status.
El Men rpido proporciona un fcil acceso a los parmetros ms utilizados.
1. Para entrar en el Men rpido, pulse la tecla [MENU] hasta que el ind
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