Maintenance diagnostics
Table M-D-3. Fan outputs do not energize
Probable Cause | Explanation |
|
Random start | After | |
| remains off until the random start time expires. |
|
When | ||
| 1. The controller exits |
|
| 2. The controller exits |
|
Cycling fan operation | When the fan mode switch is in the auto postion, the unit fan cycles off when there is no call for heating or cooling. The heating/ | |
| cooling sources cycle on oroff periodically with the unit fan to match the capacity according to | |
Unoccupied operation | The fan cycles with capacity when the unit is in unoccupied mode. This occurs even if the unit is in continuous fan operation. While | |
| unoccupied, the fan cycleson or off with heating/cooling to provide varying amounts of heating or cooling to the space. to match the | |
| capacity according to |
|
Fan mode off | When using the local fan mode switch to determine the fan operation, the off position controls the unit fan to off. | |
Requested mode: off | It is possible to communicate the operating mode (such as off, heat, and cool) to the controller. When “off” is communicated to the | |
| controller, the unitcontrols the fan to off. The unit is not capable of heating or cooling when the controller is in this mode. | |
Diagnostic present | A specific list of diagnostics effects fan operation. For more information, see the “Diagnostics” section. | |
No power to the | If the controller does not have power, the unit fan will not operate. For the controller | controller to operate |
controller | normally, it must have an input voltage of 24 VAC. Whenthe green LED is off continuously, the controller does not have sufficient | |
| power or the controller has failed. |
|
Manual output test | The controller includes a manual output test sequence to verify binary output operation and the associated wiring. However, based | |
| on the current step in the test sequence, the unit fan may not be powered on. Refer to the “Manual Output Test” section. | |
Unit wiring | The wiring between the controller outputs and the fan relays and contacts must be present and correct for normal fan operation. | |
| Refer to the typical unit wiringdiagrams in the Appendix of this manual. |
|
Table M-D-4. Valves Stay Closed
Probable Cause | Explanation |
Normal operation | The controller opens and closes the valves to meet the unit capacity requirements. |
Requested mode: off | It is possible to communicate the operating mode (such as off, heat, and cool) to the controller. When off is communicated to the |
| controller, the unitcontrols the fan to off. The unit is not capable of heating or cooling when the controller is in this mode. |
Valve override | The controller can communicate a valve override request. This request effects the valve operation. |
Manual output test | The controller includes a manual output test sequence to verify analog and binary output operation and the associated wiring. |
| However, based on thecurrent step in the test sequence, the valves may not be open. Refer to the “Manual Output Test” section. |
Diagnostic present | A specific list of diagnostics affects valve operation. For more information, see the “Diagnostics” section. |
Sampling logic | The controller includes entering water temperature sampling logic that automatically invokes during |
| determines whenthe entering water temperature is either too cool or too hot for the desired heating or cooling mode. Refer to the |
| “Entering Water section. |
Unit configuration | The controller must be properly configured based on the actual installed end devices and application. When the unit configuration |
| does not match the actualend device, the valves may not work correctly. |
No power to the | If the controller does not have power, the valves do not operate. For the controller controller to operate normally, |
| it must have an input voltage of 24 VAC. When the green LED is off continuously, the controller does not have sufficient power,or the |
| controller has failed. |
Unit wiring | The wiring between the controller outputs and the valve(s) must be present and correct for normal valve operation. Refer to the |
| typical unit wiring diagrams in the Appendix of this manual. |
Table M-D-5. Valves Stay Open
Probable Cause | Explanation |
Normal operation | The controller opens and closes the valves to meet the unit capacity requirements. |
Valve override | The controller can communicate a valve override request to affect the valve operation. |
Manual output test | The controller includes a manual output test sequence that verifies analog and binary output operation and the associated wiring. |
| However, based on thecurrent step in the test sequence, the valves may be open. Refer to the “Manual Output Test” section. |
Diagnostic present | A specific list of diagnostics affects valve operation. For more information, see the “Diagnostics” section. |
Sampling logic | The controller includes entering water temperature sampling logic that automatically invokes during |
| changeover to determine if the entering water temperature is correct for the unit operating mode. Refer to the “Entering Water |
| Temperature Sampling” section. |
Unit configuration | The controller must be properly configured based on the actual installed end devices and application. When the unit configuration does |
| not match the actual end device, the valves may not work correctly. |
Unit wiring | The wiring between the controller outputs and the valve(s) must be present and correct for normal valve operation. Refer to the |
| typical unit wiring diagrams inthe Appendix of this manual. |
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