To Next PageTo Next PageWhat causes 5 V supply fail in Curtis 1353?
A 5 V Supply Fail in the Curtis Control Unit is caused by the external load impedance on the +5 V Supply being too low. The suggested solution is to bring voltage within range.
What causes 12 V supply fail in Curtis 1353?
A 12 V supply failure in the Curtis Control Unit is caused by the external load impedance on the +12 V supply being too low. The suggested solution is to bring the voltage within the appropriate range.
Why Curtis 1353 shows external supply out of range?
If the Curtis Control Unit indicates that the external supply is out of range, it means the external load on the +5 V or +12 V supply exceeds 200 mA. To fix this, bring the external supply current within the appropriate range.
What to do if Curtis Control Unit shows analog input fault?
If the Curtis Control Unit indicates an analog input fault, it means the analog input exceeds 15.5 V (voltage input) or 7.5 K (resistance input). The solution is to bring the analog input within the acceptable range.
What to do if Curtis 1353 Control Unit shows overcurrent?
If the Curtis Control Unit displays an overcurrent warning, it means the total current exceeds 18A. To resolve this, ensure the total current returns to its normal range, which should be ?18A.
Why Curtis 1353 Control Unit shows undervoltage?
An undervoltage error on the Curtis Control Unit happens when the battery voltage is below the limit. The limit is 8.5V for 1353-4xxx and 15.5V for 1353-6xxx. The solution is for the battery voltage to return to its normal range for more than 1 second.
What causes an overtemp in the Curtis Control Unit?
An overtemp condition in the Curtis Control Unit is caused by the heatsink exceeding the allowed temperature. The suggested solution is to allow the temperature to return to its normal range, which is below 95°C.
General| Brand | Curtis |
|---|---|
| Model | 1353 |
| Category | Control Unit |
| Language | English |
Details the key features of the Curtis 1353 CANopen Expansion Module, covering outputs, dither, and current/voltage control.
Provides dimensions and recommendations for mounting the 1353 module, including screw types and heatsinking.
Details the 23-pin connector pinout and provides recommendations for wiring power, drivers, and CANbus.
Details specifications for the nine driver outputs, including max current, impedance, and frequency characteristics.
Describes the CANopen minimum state machine, including states like Initialization, Pre-Operational, and Operational.
Details selectable baud rates and methods for configuring the CAN Node ID using parameters and digital inputs.
Explains Network Management Transmission (NMT) messages, their function in setting device states, and command specifiers.
Explains the four fixed PDO communication packets, their bus bandwidth conservation, and PDO timeout fault handling.
Details the data bytes for PDO1-MOSI (Output Commands) and PDO2-MOSI (Output 9 Command, BDI).
Details the data bytes for PDO1-MISO (Input Status, Virtual Digital Inputs) and PDO2-MISO (Analog Input Data, Encoder Data).
Details the 8-byte SDO request format, including control byte, object index, sub-index, and data transfer.
Explains the SDO response format, including acknowledge codes, error codes, and how read/write values are returned.
Explains the Proportional (Kp) and Integral (Ki) gains in the PI controller for adjusting responsiveness in Constant Current/Voltage modes.
Explains how fault codes and timestamps are logged in a FIFO buffer and how status LEDs indicate faults.
Introduces the troubleshooting chart that lists fault codes, descriptions, effects, and recovery procedures.
Introduces the hierarchical program menus for adjusting parameters, monitoring values, and accessing diagnostics.
Details parameters for Driver Outputs (Operation Mode, Current, Voltage, Dither, PI) and CAN Interface (Baud Rate, Node ID, Rates).
Discusses EMC principles, including emissions and immunity, and techniques to enhance performance in Curtis controller products.
Covers ESD-sensitive components, protection methods against discharge, and importance of proper grounding and insulation.
Describes the 1314 PC Programming Station software application for programming, diagnostics, and testing.
Details the 1313 handheld programmer's equivalence to the PC station and its functions: parameter adjustment, monitoring, diagnostics, programming.
Lists general specifications for the 1353 module: input voltage, isolation, temperature ranges, enclosure, weight, and dimensions.
Details model-specific voltage ranges, serial port availability, and analog input counts for 1353-4001, -4101, -6001, -6101.
