Cutler-Hammer HV9F10AC-2M0B008 User manual
CONTENTS
HV9000 USER MANUAL
1
2
3
4
5
6
7
8
9
10
11
12
13
Safety.. ...................................................... 2
E&directive .............................................. 4
Receiving .................................................. 5
Technical data.. ......................................... 7
Installation ............................................... 17
Wiring ..................................................... 23
HVMulti-line ..................................................49
Startup .................................................... 61
Fault tracing ............................................ 64
Basic application .................................... 66
System parameter group 0.. ................... 73
HVReady application package ............... 75
Options ................................................... 77
HV9000 HVReady APPLICATION MANUAL
A General . . . . . . . O-2
B Application selection . . . . O-2
C Restoring default values of
application parameters ............. ......O-2
D Language selection .... ....................O-2
1 Standard Control Application . 1-l
2 Local/Remote Control Application 2-1
3 Multi-step Speed Application 3-1
4 PI-control Application .......... ........ ..4-1
5 Multi-purpose Application . 5-1
6 Pump and fan control Application .,6-l
HOW TO USE THIS MANUAL
This manual provides you with the
information necessary to install, start-up and Quick Start Guide must be done during
operate a Cutler-Hammer HV9000 drive. We installation and startup.
recommend that you read this manual If any problem occurs, please call the
carefully. telephone number listed on the back of this
At minimum the following 10 steps of the manual for assistance.
Quick Start Guide
1. Check the equipment received
compared to what you have ordered, 7. For instructions on how to use the
see chapter 3. HVMulti-line panel see chapter 7.
2. Before doing any start-up actions 8. The basic application has only 10
carefully read the safety instructions in parameters in addition to the motor
chapter 1. rating plate data, the parameter and
3. Before mechanical installation, check application package lock. All of these
the minimum clearances around the have default values. To ensure proper
unit and verify that ambient conditions operation verify the nameplate data of
will meet the requirements of chapter both the motor and HV9000:
5.2. and table 4.3-l a. - nominal voltage of the motor
4. Check the size of the motor cable, the - nominal frequency of the motor
utility cable and the fuses. Verify the - nominal speed of the motor
tightness of the cable connections. - nominal current of the motor
Review chapters 6.1.l , 6.1.2 and 6.1.2. - supply voltage
5. Follow the installation instructions, see Parameters are explained in chapter
chapter 6.1.4. 10.4.
6 Control cable sizes and grounding 9. Follow the start-up instructions, see
system are explained in chapter 6.2. chapter 8.
The signal configuration for the Basic 1O.Your Cutler-Hammer HV9000 is now
application is in chapter 10.2. ready for use.
Remember to connect the common
terminals CMA and CMB of the digital
input groups (See figure 10.2.1).
If a different I/O configuration or different
operational functions from the basic
configuration are required, see chapter 12,
HVReady application package for a more
suitable configuration. For a more detailed
description, see the separate HVReady -
application manual.
Cutler-Hammer is not responsible for the use
of the HV9000 differently than noted in these
instructions.
HV9000 Contents Page 1 (78)
CUTLER-HAMMER HV9000 USERS MANUAL
CONTENTS
1
2
3
4
5
6
7
Safetv 2 7.5 Reference menu 54
1.l Warnings ........................................ .2
1.2 Safety instructions ......................... .2
1.3 Grounding and ground fault
protection ....................................... 3
1.4 Running the motor ......................... .3
Elf-directive ......................................... 4
2.1 CE-label .......................................... 4
2.2 EMC-directive ................................ .4
2.2.1 General .................................... 4
2.2.2 Technical criteria ..................... .4 8
7.6 Programmable push-button menu 55
7.7 Active faults menu .. .. .. ........ .. .... 56
7.8 Fault history menu 58
7.9 Contrast menu ._,__._....................... 58
7.10 Active warning display 59
7.11 Controlling motor from the panel .60
7.11 .l Control source change from
I/O - terminals to the panel 60
7.11.2Control source change from
panel to I/O 60
Start-up ...............................................61
2.2.3 HV9000 EMC-levels ................ .4
2.2.4 Manufacturer’s Declaration of
Conformitv ................................ 4
8.1 Safety precautions ....................... .61
8.2 Sequence of operation ................. .61
,
Receiving .............................................5 9 Fault tracing .......................................64
3.1 Catalog number ...... .. .. .. .. ... .. ...5 10 Basic application ...............................66
3.2 Storing ............................................. 6
6 10.1 General ....................................... 66
3.3 Warranty .......................................... 10.2 Control connections .................. .66
Technical
6.1.2 Mot& cable
data
............................
....................................
26
6.1.3
.7
Control cable.. ........................ 26
4.1 General
6.1 .4 Installation instructions..
............................................
.........
7
29
6.1.4.1 Cable selection and
installation for UL listing ...
4.2 Power ratings
.31
6.1.5 Cable and motor insulation
8
checks ................................... 46
6.2
..................................
4.3
Control
Specifications
connections..
...............................
................... .46
15
6.2.1 Control cables.. .....................
Installation
.46
6.2.2
..........................................
Galvanic isolation barriers..
17
....46
6.2.3 Digital input function inversion.48
5.1 Ambient conditions 17........................
5.2 Cooling .......................................... 17
5.3 Mounting ........................................ 19
Wiring 23
..............................................
6.1 Power connections ...................... .26
6.1.1 Utilitvcable 26.............................
HVMulti-line panel.. .......................... .49
7.1 Introduction.. ................................. .49
7.2 Panel operation ............................ .50
7.3 Monitoring menu.. .......................... 51
7.4 Parameter group menu ................. 53
12.1 Application selection .................... 75
12.2
10.3
Standard Application
Control signal logic..
...................
...................
75
12.3
67
Local/Remote Application .......... .75
10.4
12.4 Multi-step Speed Application
Parameters, group 1 ..................
...... .75
68
12.5 PI-control Application..
10.4.1 Descriptions
................
.........................
.76
12.6
69
Multi-purpose Control App. ......... .76
12.7 Pump and Fan Control App.. ......
10.5 Motor protection functions in
.76
13 Options
the Basic Application
..............................................
.................. .72
77
13.1 Filters .........................................
10.5.1
.77
13.2 Dynamic braking
Motor thermal protection
.........................
..... .72
77
13.3 l/O-expander board
10.5.2
....................
Motor stall warning
.77
13.4 Communications
...............
.........................
72
77
13.5 HVGraphic control panel ............ .77
11
13.6
System
HVDrive
parameter group 0..
......................................
............
.77
13.7 Control panel door mount kit..
.73
..... .77
13.8 Protected chassis cable cover for
loo-150 Hp open chassis units ... 78
11.l Parameter table .......................... 73
11.2 Description .................................. 73
12 “HVReady”- application package ..... 75
Page 2 (78) Safety HV9000
q
1 SAFETY
ONLY A QUALIFIED ELECTRICIAN CAN CARRY
OUT THE ELECTRICAL INSTALLATION
1.l Warnings
1
2
A
4 3
4
5
“,,.,
‘6
Internal components and circuit boards (except the isolated I/O
terminals) are at utility potential when the HV9000 is connected to
the line. This voltage is extremely dangerous and may cause
death or severe injury if you come in contact with it.
When the HV9000 is connected to the utility, the motor
connections U(Tl), V(T2), W(T3) and DC-link I brake resistor
connections -,+ are live even if the motor is not running.
The control l/O terminals are isolated from the line potential
but the relay outputs and other I/O:s (if jumper X4 is in OFF
position see figure 6.2.2-l) may have dangerous external voltages
connected even if the power is disconnected from the HV9000.
The HV9000 has a large capacitive leakage current.
An upstream disconnect/protection device is to be used as noted
in the National Electric Code (NEC).
Only spare parts obtained from a Cutler-Hammer authorized
distributor can be used.
1.2 Safety instructions
2
5
6
7
The HV9000 is meant only for fixed installation. Do not make any con-
nections or measurements when the HV9000 is connected to the
utility.
After disconnecting the utility, wait until the unit cooling fan stops and
the indicators on the control panel are extinguished (if no keypad is
present, check the indicators in the cover). Wait 5 more minutes
before doing any work on the HV9000 connections. Do not open the
cover before this time has run out.
Do’ not make any voltage withstand or megger tests on any part of
the HVSOOO.
Disconnect the motor cables from the HV9000 before meggering the
motor cables.
Do not touch the IC-circuits on the circuit boards. Static voltage
discharge may destroy the components.
&fore connecting to the utility make sure that the cover of the
HV9000 is closed
Make sure that nothing but a three-phase motor is connected to the
motor terminal, with the exception of factory recommended filters.
HV9000 Receiving Page 3 (78)
1.3 Grounding and ground fault
protection
The HV9000 must always be grounded with a
grounding conductor connected to the
grounding terminal. @
The HV9000’s ground fault protection protects
only the HV9000 if a ground fault occurs in the
motor or in the motor cable.
Due to the high leakage current fault current
protective devices do not necessarily operate
correctly with drives. When using this type of
device its function should be tested in the
actual installation.
Warning Symbols
For your own safety, please pay special
attention to the instructions marked with these
warning symbols:
Dangerous voltage
= General warning
1.4 Running the motor
1 Before running the motor, make sure that the motor is mounted
properly.
A
! * Maximum motor speed (frequency) should never be set to exceed
the motor’s and driven machine’s capability.
3 Before reversing the rotation of the motor shaft, make sure that this
can be done safely.
Page 4 (78) E&directive HV9000
2 EU-DIRECTIVE
2.1 CE-label
The CE-label on the product guarantees the
free movement of the product in the EU-area.
According to the EU-rules this guarantees that
the product is manufactured in accordance
with different directives relating to the product.
Cutler-Hammer HV9000s are equipped with
the CE-label in accordance with the Low
Voltage Directive (LVD) and the EMC directive.
2.2 EMC-directive
2.2.1 General
The EMC directive (Electra Magnetic
Compatibility) states that the electrical
equipment must not disturb the environment
and must be immune to other Electra Magnetic
Disturbances in the environment.
A Technical Construction File (TCF) exists
which demonstrates that the HV9000 drives
fulfill the requirements of the EMC directive. A
Technical Construction File has been used as
a statement of conformity with the EMC
directive as it is not possible to test all
combinations of installation.
2.2.2 Technical criteria
The design intent was to develop a family of
drives, which is user friendly and cost effective,
while fulfilling the customer needs. EMC
compliance was a major consideration from
the outset of the design.
The HV9000 series is targeted at the world
market. To ensure maximum flexibility, yet
meet the EMC needs of different regions, all
drives meet the highest immunity levels , while
emission levels are left to the user’s choice.
The HV9000 does not include the required
EMC filter, which is available as an option.
For use within the EU the end user takes
personal responsibility for EMC compliance.
2.2.3 EMC-levels
The HV9000 series does not fulfil any EMC
emission requirements without an optional
RFI-filter, either built-in or separate. With an
RFI-filter, the drive fulfils the EMC emission
requirements in the heavy industrial
environment (standards EN50081 -2 ,
EN61 800-3).
All products fulfil all EMC immunity
requirements (standards EN50082-l,-2 ,
EN61800-3).
2.2.4 Manufacturer’s Declaration of
Conformity
Manufacturer’s Declaration of Conformity are
available upon request.
HV9000 Receiving Page 5 (78)
3 RECEIVING
This Cutler-Hammer HV9000 drive has been
subjected to demanding factory tests before
shipment. After unpacking, check that the
device does not show any signs of damage
and that the HV9000 is as ordered (refer to
the model designation code in figure 3-l).
In the event of damage, please contact and
file a claim with the carrier involved
immediately.
3.1 Catalog Number
If the received equipment is not the same as
ordered, please contact your distributor
immediately.
Note! Do not destroy the packing. The
template printed on the protective cardboard
can be used for marking the mounting points
of the HV9000 on the wall.
HV9 015 A C-5 MO
1 TTTTTT
II I I II
Hp size at VT rating
Series (only A at this time)
II I I
Enclosure Rating
C-Compact Nema 1 (IP20) II I I
N - Std Chassis
P - Std protected chassis (IP20)
S - Std NEMA 1
J - Std NEMA 12 (IP54)
G -Oversized NEMA 1
D-Oversized NEMA 12
A 00 80
T- Control/Communication Options 0
00 - No modification
01 - 5 digital inputs, 2 analog inputs (1 Voltage,
1Current), thermistor input, encoder input
02 - 5 digital inputs, relay output, thermistor inpu
03 - 5 digital inputs, 2 analog inputs (2 Voltage),
3 relay outputs, analog output (voltage), ther
mistor input, encoder input
04 - 5 digital inputs, 3 relay outputs, analog out-
put, thermistor input,
05 - Encoder board
32 - ModBus RTU network communications
34 - LonWorks network communications
36 - Metasys@ N2 Network Communications 0
37 -APOGEETM FLN Network Communications
standard in all Compact NEMA 1 sizes)
(other than 0 denotes special)
G - HV Graphic
D Control and communlcatlon opbons for Compact NEMA 1areincluded in a separate expansion box
P Contact Cutler-Hammer for availability
3 208V reqwes 8 as first character in suffix
B Available as a factory installed option only
Figure 3- 1Catalog number system.
Page 6 (78) Receiving HV9000
3.2 Storing
If the HV9000 must be stored before
installation and startup, check that the
ambient conditions in the storage area are
acceptable (temperature -40°C - +60X; (-
40°F - + 14O”F), relative humidity <95%, no
condensation allowed).
3.3 Warranty
This equipment is covered by the Cutler-
Hammer standard drive warranty policy.
Cutler-Hammer distributors may have a
different warranty period, which is specified in
their sales terms and conditions and warranty
terms.
If any questions arise concerning the warranty,
please contact your distributor.
HV9000 Technical data Page 7 (78)
4 TECHNICAL DATA
4.1 General
Figure 4-1 shows a block diagram of the and can be mounted externally and connected
HV9000 drive. via a cable to the drive.
The three phase AC-Choke with the DC-link
capacitor forms an LC filter which together with
the Diode Bridge produce the DC voltage for
the IGBT lnverterfkidge block. The AC-Choke
smooths the HF-disturbances from the utility
to the drive and HF-disturbances caused by
the drive to the utility. It also improves the
waveform of the input current to the drive.
The Control I/O block is isolated from line
potential and is connected to ground via a 1 MD
resistor and 4.7 nF capacitor. If needed, the
Control I/O block can be grounded without a
resistor by changing the position of the jumper
X4 (GND ON/OFF) on the control board.
The IGBT bridge produces a symmetrical three
phase pulse width modulated AC voltage to the
motor. The power drawn from the supply is
almost entirely active power.
The Motor and Application Control block is
based on microprocessor software. The
microprocessor controls the motor according
to measured signals, parameter value settings
and commands from the Control I/O block and
the Control Panel. The Motor and Application
Control block gives commands to the Motor
Control AS/C which calculates the IGBT
switching positions. Gate Drivers amplify
these signals for driving the IGBT inverter
bridge.
The basic Control interface and parameters
(Basic application) make the inverter easy to
operate. If a more versatile interface or
parameter settings are needed, an optional
application can be selected with one
parameter from a “HVReady” application
package. The application package manual
describes these in more detail.
Input and Output EMC-filters are not required
for the functionality of the drive, they are only
required for compliance with the EU EMC-
directive.
The Control Panel is a link between the user
and the drive. With the panel the user can set
parameter values, read status data and give
control commands. The panel is removable
Page 8 (78) Technical data
4.2 Power Ratings - Base Drives - Compact Size
ZOW,CompactNEMA1
Rated HP s Output Current Frame Size/
Variable Torque Enclosure Size
$yscl;
in Inches and (mm) rF$t Catalog Number
HP INlO
: 5.610 M3l HV9FlOAC2MOB008
Compact NEMA 1 4.7 x 12.0x 304.6x 5.9x 149.9)
(119.4 9.9 HV9F20AC2MOB008
: 16
z M4BI 5.3 x 15.4 x 8.1
Compact NEMA 1 (134.6 x 391.2 x 205.7) 15.4 HV9F30ACZMOB008HV9F50AC2MOB008
7-112 HV9F75AC2MOB008
1; :; M5B/ 7.3 x 22.8 x 8.5
Compact NEMA 1 (185.4 x 579.1 x 215.9)
33.1 HV901HV9015AC2MOB008OAC2MOB008
20 70 HV9020AC2MOB008
23llV, CompactNEMA1
Rated HP & Output Current Frame Size/ Dimensions
Variable Torque Enclosure Size WxHxD
HP IJt 0 in Inches and (mm) ziiht Catalog Number
:
3
5
7-112
10
15
:z
4.77.0
10
:“2
30
43
5:
M3l 4.7 x 12.0 x 5.9
Compact NEMA 1 (119.4 x 304.8 x 149.9) 9.9 HV9FlOAC2MOBOOHV9F20AC2MOBOO
HV9F30AG2MOBOO
HV9F50AC2MOBOO
M4BI 5.3 x 15.4 x 8.1
Compact NEMA 1 (134.6 x 391.2 x 205.7) 15.4 HV9F75AC2MOBOO
HV9010AG2MOBOO
HV9015AC2MOBOO
M5BICompact NEMA 1 7.3(185.4x 22.8x 579.1x 8.5x 215.9) 33.1 HV9020AC2MOBOO
HV9025AC2MOBOO
48llV, CompactNEMA1
Rated HP 8 Output Current
Variable Torque
HP Iti 0
Frame Srzel
Enclosure Size
;yr.;S
in Inches and (mm) Weight Catalog Number
in Ibs.
:
3
5
7-112
10
15
20
z;
40
M3/ 4.7 x 12.0 x 5.9 HV9FlOAC5MOBOOHV9F20AC5MOBOO
Compact NEMA 1 (119.4 x 304.8 x 149.9) 9.9 HV9F30AC5MOBOO
HV9F50AC5MOBOO
HV9F75AC5MOBOO
M4BI 5.3 x 15.4 x 8.1 15.4 HV9010AC-5MOBOO
Compact NEMA 1 (134.6 x 391.2 x 205.7) HV9015AC5MOBOO
HV9020AC5MOBOO
M5B/ 7.3 x 22.8 x 8.5 33.1 HV9025AC5MOBOOHV9030AC5MOBOO
Compact NEMA 1 (185.4 x 579.1 x 215.9) HV9040AC5MOBOO
(1) Ivt = continuous rated input and output current (variable torque load, max. 40°C ambient).
Technical data Page 9 (78)
4.2 Power Ratinas - Base Drives - Standard
208V,NEMAl
Rated HP 8 OutI -3utCurrent I
1
r.___ _.__I
“,__-.‘_I&T^.^..^ ,rra,r,e 3lLW 1Dimensions
I>I,., u . ‘) I,.,-.-L. I
IY?gnr ICr+talogNumber I
; :: MVNEMA 1 4.7 x 15.4x 391.2x 5.5x(119.4 215.9) 176 HV9F20AS2M0,HV9F30AS2M0,
5 22 HV9F50AS2M0,
7-l/2
z
MBlNEMA 1 6.2 x 20.3 x 9.4
(157.5 x 515.6 x 2313.8) 35.3 HV9F75AS2M0,
10 HV9010AC-QL”“~
15 :; HV9015A
z: MG/NEMA 1 6.7 x 25.6 x 11.4 HV9020A
83 (221 .O x 650.2 x 289.6) *4 HV9025A
30 113 HVOOROA
2: 139165 HV9040AM7/NEMA 1 14.7x39.4x 13
(373.4 x 1000.8 x 330.2) ‘6’ HV9050A
60 200 HV9060Aa-r,v,vnuvo
75 264 MUNEMA 1 19.5 x 50.8 x 14
(495.3 x 1290.3 x 355.6) 337 HV9075AS2MOA008
208V,WEMA12
6.2 x 20.3 x 9.4
HV9075AJ-2MOA008
208V,ProtectedChassWChassls
Rated HP 8 Output Current
Variable Torque
UP II\,+m
Frame Size/
Enclosure Size
p$Si;s
in Inches and (mm) Weight Catalog Number
in Ibs.
MWProtected
MUProtected
4.7 x 11.4 x 8.5 17.’ HV9F20AP-2MOA006
(119.4 x 289.6 x 215.9) HV9F30AP-2MOA008
6.2 x 15.9 x 9.4 HV9F50AP-2MOA008
35.3 HVSF75AP.2MOAOOg
(157.5 x 403.9 x 236.8) HvnninAP-3MnAnnn
MG/Protected
HV9015AP-2MOP
8.7 x 20.7 x 11.4 HV9020AP-2MOP
(221 .Ox 525.8 x 289.6) 77’2 HV9025AP-2MOP
HV9030AP-2MOP
r008
root3
(008
\008
-I
\008
4008
mm
:: 139165 M7/Protected 9.8 x 31.5 x 12.4
60 200 (245.9 x 800.1 x 315.0) ‘35 HV9040AN-2MOIHV9050AN-2MOE
HV9060AN-2MOE.___
75 264 MB/Chassis @ 19.5 x 35.0 x 13.9
(495.3 x 889 x 353.11 337 HV9075AN-2MOA008
0 Ivt = continuous rated input and output current (variable torque load, max. 40°C ambient).
0 Protected enclosure with option.
Page 10 (78) Technical Data HVWOO
4.2 Power Ratings - Base Drives - Standard
23OV,HEMA1
Rated HP & Output Current
Variable Torque
HP Ivt 0
3 10
?-l/2 :“2
10 s:
15
trz 5;
z 63
113
:: 139165
75 200
Frame Size/
Enclosure Size
MWNEMA 1
M5lNEMA 1
MGINEMA 1
M7INEMA 1
;ryr$o;s
in Inches and (mm) $L$t Catalog Number
4.7 x 15.4 x 8.5
(119.4x391.2x215.9) ‘76 HV9F30AS2MOAOO
HV9F50ASZMOAOO
6.2 x 20.3 x 9.4 35’3 HV9F75AS2MOAOO
(157.5 x 515.6 x 238.8) HV9010AS2MOAOO
HV9015AS2MOAOO
HV9020AS2MOAOO
8.7 x 25.6 x 11.4 HV9025AS2MOAOO
(221 .Ox 650.2 x 289.6) *4 HV9030AS2MOAOO
HV9040AS-2MOAOO
14.7 x 39.4 x 13
(373.4 x 1000.6 x 330.2) 18’ HV9050AS2MOAOOHV9060AS2MOAOO
HV9075AS2MOAOO
100 264 MWNEMA 1 19.5 x 47.6 x 13.9
(495.3 x 1209.0 x 353.1) I I
337 HV9lOOAS2MOAOO
23OV,lEMA12
Rated HP & Output Current Dimensions
Variable Torque Frame Size/
Enclosure Size WxHxD Weight Catalog Number
in Inches and (mm) in Ibs.
HP Ivt 0
3 10 M4lNEMA 12 4.7 x 15.4 x 8.5
(119.4x391.2x215.9) 17.13 HV9F30AJ-2MOAOO
;-l/2 :“2 HV9F50AJ-2MOAOO
M5/NEMA 12 6.2 x 20.3 x 9.4 HV9F75AJ-2MOAOO
1: :: (157.5 x 515.6 x 238.8) 35’3 HV901OAJ-PMOAOO
HV9015AJ-2MOAOO
% :; HV9020AJ-2MOAOO
MG/NEMA 12 6.7 x 25.6 x 11.4 HV9025AJ-2MOAOO
30 z3 (221 .Ox 650.2 x 289.6) 64 HV9030AJ-2MOAOO
40 HV9040AJ-2MOAOO
:: 139165 M7lNEMA 12 14.7x39.4x13 HV9050AJ-2MOAOO
75 200 (373.4 x 1000.8 x 330.2) “’ HV9060AJ-2MOAOO
HV9075AJ-2MOAOO
100 264 MBINEMA 12 19.5 x 47.6 x 13.9
(495.3 x 1209.0 x 353.1) 337 HV9lOOAJ-2MOAOO
0 Ivt = continuous rated input and output current (variable torque load, max. 40°C ambient)
Technical data Page 11 (78)
4.2 Power Ratings - Base Drives - Standard
23OV, Protected Chassis/Chassis
b
3 110 MYProtected
L/2
10 2
30 M5/Protected
MB/Chassis 0
$y~Jo;
in Inches and (mm)
4.7 x 15.4 x 6.5
(119.4 x 391.2 x 215.9)
6.2 x 20.3 x 9.4
(157.5 x 515.6 x 236.6)
6.7 x 25.6 x 11.4
(221 .Ox 650.2 x 269.6)
14.7 x 39.4 x 13
(373.4 x 1000.6 x 330.2)
19.5 x 47.6 x 13.9
(495.3 x 1209.0 x 353.1)
$L$t Catalog Number
HV9F75AP-2MOAOO
HV9010AP-2MOAOO
HV90ZOAP-2MOAOO
HV9025AP-2MOAOO
HV9030AP-2MOAO0
HV9050AN-2MOAOO
HV9060AN-2MOAOO
337 HV9100AN-2MOAOO
1
0 Ivt = continuous rated input and output current (variable torque load, max. 40°C ambient).
0 Protected enclosure with option.
Page 12 (78) Technical Data
4.2 Power Ratings - Base Drives - Standard
HV!3000
48OV,IEMA 1
Rated HP 8 Output Current I
Variable Torque Frame Size/
HP INto Enclsoure Size I
5
7-112 MUNEMA 1
E t: M5INEMA 1
25 32
30 40
MG/NEMA 1
80 177 I
75 96
100 125
125 160 M7lNEMA 1
150 160
200 260
250 320 MaINEMA 1
300 400
4nn 460 MS/NEMA 1
$e$
In Inches and (mm)
4.7 x 15.4 x 8.5
(119.4 x 391.2 x 215.9)
6.2 x 20.3 x 9.4
(157.5 x 515.6 x 238.8)
8.7x25.8x11.4
(221 .O x 850.2 x 269.6)
14.7 x 39.4 x 13.0
(373.4 x 1000.8 x 330.2)
19.5 x 47.6 x 13.9
(495.3 x 1209.0 x 353.1)
27.8 x 56.1 x 15.4
(701 .o x 1424.9 x 391.2)
Fi$rt Catalog Number
48OV,NEMA
12
Rated HP B Output Current
Variable Torque Frame Size1
Enclsoure Size
$yr$o;
HP Ivt 0 in Inches and (mm) ~~~$rt Catalog Number
5
7-l/2 ?I HV9F50AJ-5MOAOO
MUNEMA 12 4.7 x 15.4 x 6.5
(119.4 x 391.2 x 215.9) ‘76 HV9F75AJ-2MOAOO
10 15 HV901 O/U-PMOAOO
15 21 HV9015AJ-5MOAOO
:z :: M5/NEMA 12 6.2 x 20.3 x 9.4
(157.5 x 515.6 x 238.8) 35’3 HV9020AJ-5MOAOO
HV9025AJ-5MOAOO
:; ikj HV9030AJ-5MOAOO
HV9040AJ-5MOAOO
% MG/NEMA 12 8.7 x 25.6 x 11.4
77 (221 .Ox 650.2 x 289.6) 83’8 HV9050AJ-5MOAOO
HV9660AJ-5MOAOO
75 96 HV9075AJ-5MOAOO
100 125
125 180 M7lNEMA 12 14.7 x 39.4 x 13.0 HV91OOAJ-5MOAOO
(373.4 x 1000.8 x 330.2) 221 HV9125AJ-5MOAOO
15n 1Rn HV9150AJ-5MOAOO
._- .__
200 280 M6INEMA 12 19.5 x 47.6 x 13.9
250 320 (495.3 x 1209.0 x 353.1) 3og HV9200AJ-5MOAOO
HV9250AJ-5MOAOO
300 400 27.6 x 56.1 x 15.4 HV9300AJ-5MOAOO
400 480 MS/NEMA 12 (701 .o x 1424.9 x 391.2) 574 HV9400AJ-5MOAOO
HV9015AS5MOAOO
HV9020AS5MOAOO
HV9040AS-5MOAO0
HV9050AS-5MOAOO
HV9060AS5MOAOO
HV91 OOAS5MOAOO
HV9125AS5MOAOO
0 Ivt = continuous rated input and output current (variable torque load, max. 40°C ambient)
0 Protected enclosure with option.
HV9OOll Technical data
4.2 Power Ratings - Base Drives - Standard
Page 13 (78)
,2) I221 -
I Y.Y
.o x 353.1) 3og HVYLUUAS-3MUA00
HV9250AS-5MOAOO
15.4
.9 x 391.21 574 HV9300AS-5MOAOO
HV9400AS5MOAOO
0 Ivt = continuous rated input and output current (variable torque load, max. 40°C ambient).
Q Protected enclosure with option.
Page 14 (78) Technical data
4.2 Power Ratings - Base Drives - Standard
575V, HEMA l/Chassis
6.7 x 24.3 xl 1.4
0 Ivt = continuous rated input and output current (variable torque load, max. 40°C ambient)
0 Protected enclosure with option.
HV9000 Technical data Page 15 (78)
4.3 Specifications
Ambient operating
Altitude Max 1000 m at continuous IyT specification
Over 1000 m reduce IvT by 1% per each 100 m
Absolute maximum altitude 3000 m
Vibration
(IEC 721-3-3) Operation: max displacement amplitude 3 mm
at 2-9 Hz,
Max acceleration amplitude 0.5 G at 9-200 Hz
Shock
(IEC 68-2-27)
Enclosure
Operation: max 8 G. 11 ms
Storage and shipping: max 15 G, 11 ms (in the package)
Open and protected chassis (IPOOand IP20)
Compact NEMA 1 (IP20)
NEMA 1 (IP21)
NEMA 12 (IP54)
Oversized NEMA 1
Oversized NEMA 12
Table 4.3-1 Specifications
Page 16 (78) Technical data HMO00
Max switching load:
x continuous load:
8Al24V
0.4A1250VDC
2 kVA/250VAC
2 A rms
Utility voltage: 230 V
Utilityvoltage: 480 V
Motor underload protection Yes
Short-circuit protection of Yes
+24V and +l OVreference
voltages
Table 4.3- 7 Specifications.
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