Technical data

June 2008
40-254
For more information visit: www.eaton.com CA08102001E
Adjustable Frequency Drives
40
CPX9000
Enclosed Drives
CanOpen (Slave) Communications
The CanOpen (Slave) Network Card OPTC6 is used for
connecting the 9000X Drive to a host system. According to
ISO11898 standard cables to be chosen for CAN bus should
have a nominal impedance of 120Ω, and specific line delay
of nominal 5 nS/m. 120Ω line termination resistors required
for installation.
DeviceNet Network Communications
The DeviceNet Network Card OPTC7 is used for connecting
the 9000X Drive on a DeviceNet Network. It includes a
5.08 mm pluggable connector. Transfer method is via CAN
using a 2-wire twisted shielded cable with 2-wire bus power
cable and drain. The baud rates used for communication
include 125K baud, 250K baud and 500K baud.
Johnson Controls Metasys™ N2 Network Communications
The OPTC2 fieldbus board provides communication
between the 9000X Drive and a Johnson Controls Metasys™
N2 network. With this connection, the drive can be
controlled, monitored and programmed from the Metasys
system. The N2 fieldbus is available as a factory installed
option and as a field installable kit.
Modbus/TCP Network Communications
The Modbus/TCP Network Card OPTCI is used for
connecting the 9000X Drive to Ethernet networks utilizing
Modbus protocol. It includes an RJ-45 pluggable connector.
This interface provides a selection of standard and custom
register values to communicate drive parameters. The board
supports 10 Mbps and 100 Mbps communication speeds.
The IP address of the board is configurable over Ethernet
using a supplied software tool.
BACnet Network Communications
The BACnet Network Card OPTCJ is used for connecting
the 9000X Drive to BACnet networks. It includes a 5.08 mm
pluggable connector. Data transfer is Master-Slave/Token
Passing (MS/TP) RS-485. This interface uses a collection of
30 Binary Value Objects (BVOs) and 35 Analog Value Objects
(AVOs) to communicate drive parameters. The card supports
9.6, 19.2 and 38.4 Kbaud communication speeds and
supports network addresses 1 – 127.
Ethernet/IP Network Communications
The Ethernet/IP Network Card OPTCK is used for connecting
the 9000X Drive to Ethernet/Industrial Protocol networks. It
includes an RJ-45 pluggable connector. The interface uses
CIP objects to communicate drive parameters (CIP is
“Common Industrial Protocol”, the same protocol used by
DeviceNet). The board supports 10 Mbps and 100 Mbps
communication speeds. The IP address of the board is
configurable by Static, BOOTP and DHCP methods.
Table 40-368. I/O Specifications for the Control/Communication Options
Table 40-369. Conformal (Varnished) Coating Adder —
208 – 240V, 380 – 500V
See catalog number description to order.
Enclosed Options
Table 40-370. 480V Light Options
Table 40-371. 480V Control Options
Description Specifications
Analog voltage, input 0 – ±10V, R
i
200 k
Analog current, input 0 (4) – 20 mA, R
i
= 250
Digital Input 24V: “0” 10V, “1” 18V, R
i
> 5 k
Aux. voltage 24V (±20%), max. 50 mA
Reference voltage 10V ±3%, max. 10 mA
Analog current, output
Analog voltage, output
0 (4) – 20 mA, R
L
= 500 k, resolution 10 bit,
accuracy ±2%
0 (2) – 10V, R
L
1 k, resolution 10 bit,
accuracy ±2%
Relay output
Max. switching voltage
Max. switching load
Max. continuous load
300V DC, 250V AC
8A/24V DC, .4A/300V DC, 2 kVA/250V AC
2A rms
Thermistor input R
trip
= 4.7 k
Chassis
Frame
Delivery
Code
Adder
U.S. $
Chassis
Frame
Delivery
Code
Adder
U.S. $
FR6
FR7
FR8
FP
FP
FP
FR9
FR10
FR11
FR12
FP
FP
FP
FP
Catalog
Number
Suffix
Power On/Fault Pilot
Lights (22 mm)
Red RUN
Light (22 mm)
L1 LE
hp Adder
U.S. $
Adder
U.S. $
25 – 800
Catalog
Number
Suffix
Door-Mounted
Speed
Potentiometer
Door-Mounted
Speed
Potentiometer
with HOA
Selector Switch
3 – 15 psig
Follower
HAND/OFF/AUTO
Switch (22 mm)
MANUAL/AUTO
Ref Switch
(22 mm)
START/STOP
Pushbuttons
(22 mm)
Standard
Elapsed
Time Meter
K1 K2 K3
K4 K5 K6 KO
hp Adder
U.S. $
Adder
U.S. $
Adder
U.S. $
Adder
U.S. $
Adder
U.S. $
Adder
U.S. $
Adder
U.S. $
25 – 800
Discount Symbol . . . . . . . . . . . . . . . . . . . . . . . . SS-3