7N9999 FRAME AS-RADIATOR Caterpillar parts
943, 953, 953B, 953C
Rating:
Alternative (cross code) number:
CA7N9999
7N-9999
7N9999
CA7N9999
7N-9999
7N9999
Weight: 72 pounds 32 kg.
TRACK LOADER,
Number on catalog scheme:
2
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Information:
Primary CAN Communication Wires
The primary CAN communication wires are brought out of the OCP as part of the 120 pin connector. The pin designations for the OCP connector are shown in Table 1.
Table 1
Primary CAN Communication Wires
Pin # Name Description
43 CAN 1- Differential (-) for CAN
30 CAN 1 SH Shield for CAN
32 CAN 1+ Differential (+) for CAN The primary CAN data link uses bus type construction that consists of a main trunk and drops off the trunk. The features that apply to the bus system are as follows:
The maximum allowable trunk length is 40 m (131 ft)
Maximum drop length is 1 m (3 ft)
Requires a 120 ohm termination resistor at the ends of the main trunkRefer to Illustration 1 as an example of the CAN bus wiring for the OCP.
Illustration 1 g02951380
OCP CAN 1 wiring diagram example
Accessory CAN Data Link (CAN 2)
The CAN 2 accessory data link connection proves the following features:
Use with local and remote communication
Annunciator can be installed up to 244 m (800 ft) from the control module
Supports a maximum of four CAN annunciators modules
Supports only Caterpillar approved modules
Provides connection for use with the digital expansion input/output modules
connection is provided for use with the thermocouple and RTD modules
The total number of optional modules not to exceed four annunciators, four I/O modules, and two temperature modulesTable 2 lists the supported modules for the CAN 1 and CAN 2 data links.
Table 2
MODULE OCP
Primary CAN Accessory CAN
Electronic Engine Controller 2 0
CAN Annunciator 0 4
Thermocouple 1 1
RTD 0 1
DIO 0 4 Accessory CAN Data Link (CAN 2) Wiring
The accessory CAN communication wires are brought out of the OCP as part of the 120 pin connector. The pin designations for the OCP connector are shown in Table 3.
Table 3
Accessory CAN Communication Wires
Pin # Name Description
42 CAN 2- Differential (-) for CAN
41 CAN2 SH Shield for CAN
31 CAN2+ Differential (+) for CAN The accessory CAN data link uses bus type construction that consists of a main trunk and drops off the trunk. The features that apply to the bus system are as follows:
The maximum allowable trunk length is 244 m (800 ft)
Maximum drop length is 3 m (9 ft)
Requires a 120 ohm termination resistor at the ends of the main trunkRefer to Illustration 2 as an example of the accessory CAN bus wiring for the OCP. Illustration 2 is an example of the accessory CAN bus circuit in the default configuration with no remote devices connected.
Illustration 2 g02951380
OCP accessory CAN 2 wiring diagram example
RS-485 SCADA Data Link (Modbus RTU, Half duplex)
The OCP will have an RS-485 Modbus RTU data link for customer monitoring and control. This data link will allow for the remote monitoring of all parameter data that is visible on the display and on the service tool. SCADA data link will provide data link based control of the outputs. The RS-485 Modbus RTU functionality is based on the OCP platform. The OCP has a broader range of parameters that can be supported due to the enhanced functionality of the OCP.The current
The primary CAN communication wires are brought out of the OCP as part of the 120 pin connector. The pin designations for the OCP connector are shown in Table 1.
Table 1
Primary CAN Communication Wires
Pin # Name Description
43 CAN 1- Differential (-) for CAN
30 CAN 1 SH Shield for CAN
32 CAN 1+ Differential (+) for CAN The primary CAN data link uses bus type construction that consists of a main trunk and drops off the trunk. The features that apply to the bus system are as follows:
The maximum allowable trunk length is 40 m (131 ft)
Maximum drop length is 1 m (3 ft)
Requires a 120 ohm termination resistor at the ends of the main trunkRefer to Illustration 1 as an example of the CAN bus wiring for the OCP.
Illustration 1 g02951380
OCP CAN 1 wiring diagram example
Accessory CAN Data Link (CAN 2)
The CAN 2 accessory data link connection proves the following features:
Use with local and remote communication
Annunciator can be installed up to 244 m (800 ft) from the control module
Supports a maximum of four CAN annunciators modules
Supports only Caterpillar approved modules
Provides connection for use with the digital expansion input/output modules
connection is provided for use with the thermocouple and RTD modules
The total number of optional modules not to exceed four annunciators, four I/O modules, and two temperature modulesTable 2 lists the supported modules for the CAN 1 and CAN 2 data links.
Table 2
MODULE OCP
Primary CAN Accessory CAN
Electronic Engine Controller 2 0
CAN Annunciator 0 4
Thermocouple 1 1
RTD 0 1
DIO 0 4 Accessory CAN Data Link (CAN 2) Wiring
The accessory CAN communication wires are brought out of the OCP as part of the 120 pin connector. The pin designations for the OCP connector are shown in Table 3.
Table 3
Accessory CAN Communication Wires
Pin # Name Description
42 CAN 2- Differential (-) for CAN
41 CAN2 SH Shield for CAN
31 CAN2+ Differential (+) for CAN The accessory CAN data link uses bus type construction that consists of a main trunk and drops off the trunk. The features that apply to the bus system are as follows:
The maximum allowable trunk length is 244 m (800 ft)
Maximum drop length is 3 m (9 ft)
Requires a 120 ohm termination resistor at the ends of the main trunkRefer to Illustration 2 as an example of the accessory CAN bus wiring for the OCP. Illustration 2 is an example of the accessory CAN bus circuit in the default configuration with no remote devices connected.
Illustration 2 g02951380
OCP accessory CAN 2 wiring diagram example
RS-485 SCADA Data Link (Modbus RTU, Half duplex)
The OCP will have an RS-485 Modbus RTU data link for customer monitoring and control. This data link will allow for the remote monitoring of all parameter data that is visible on the display and on the service tool. SCADA data link will provide data link based control of the outputs. The RS-485 Modbus RTU functionality is based on the OCP platform. The OCP has a broader range of parameters that can be supported due to the enhanced functionality of the OCP.The current
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