4. Evidencias y Recomendaciones
4.3 Prescripción de ejercicio
4.3.3 Programa de entrenamiento: Modalidad, frecuencia, duración e intensidad
Preliminary Working Document Section Name
10 NRD Fault Code Tables
Table 1 Chain 10 Fault Codes
Code Description/Reference Procedures
10-101 Print LE was late to the Prefuser Sensor Q1010 after it arrived at the Registration Sensor Q1009.
1. Enter dC726. Select [22. 10-101], [Timing Graphs], [Continue]. When the test is complete, inspect the timing data for Normal, Late, or Random distribution. Perform the checks below which relate to the type of distribution identified in the timing graph.
Late Distribution:
- Prefuser Transport for vacuum leaks (PL 8.9)
- Damaged or contaminated Prefuser Transport Drive Belts (PL 8.9) - Binding Prefuser Transport Bearings (PL 8.9)
- Worn Prefuser Transport Drive Coupling (PL 4.16) - Obstructed Prefuser Transport Manifold holes
- Prefuser Drive System for worn or misadjusted components (PL 4.16) Normal or Random Distribution:
- Measure the voltage of the Registration Sensor Q861 (PL 8.4) and Prefuser Sensor Q1009. If a voltage is out of specification replace the appropriate sensor, (PL 8.9).
2. For Misregistration or Skew, go to the 8-706 NRD.
3. For Print Jams Before the Prefuser Transport perform the following checks:
- Obstructions in the sheet path - Condition of paper
- Operation and condition of the Transfer and Detack Dicorotrons (PL 9.11) - Condition of the Pretransfer Baffle (PL 8.8)
- Condition of the Stripper Finger Assembly (PL 9.3)
- Condition and operation of the Transfer Assist Blade (PL 9.11) Other dCs: 330[10], 727 BSD 10.2 - Condition of the Detack Paper Guide (PL 9.11)
10-102 Print LE was late to the Fuser Sensor Q1010 after it arrived at the Prefuser Sensor Q1009.
1. Ensure paper is loaded properly and does not have excessive curl. For duplex mode operation, check the Decurler Exit Baffle adjustment (ADJ 10-8).
10-104 Print LE was late to the Decurler Sensor Q1011 after it arrived at the Fuser Sensor Q1010.
2. Perform the following stress test to increase the frequency of the failure.
For 10-102 faults, enter dC726 Select [23. 10-102], [Timing Graphs], [Continue]. Run the same paper that the cus-tomer was having problems with to aid in identification of the faulty component. If a fault cannot be induced, view the Histogram timing data. If random distribution is detected, check the following components:
- Check the Fuser Drive Coupling for damage and ensure that it is lubricated (PL 4.17) - Replace the Prefuser Sensor Q1009 and Fuser Sensor Q1010 (PL 8.9 and PL 10.6).
- For 10-104 faults, enter dC726 Select [24. 10-104], [Timing Graphs], [Continue]. Run the same paper that the customer was having problems with to aid in identification of the faulty component. If a fault cannot be induced, view the Histogram timing data. If random distribution is detected, check the following components:
- Check the Fuser Drive Coupling for damage and ensure that it is lubricated (PL 4.17) - Replace the Fuser Sensor Q1010 and Decurler Sensor Q1011 (PL 10.6 and PL 10.17).
Identify the symptom below that relates to the failure.
- Skew/misregistration/wrinkles (severe)/dog ears (other than Fuser area) - Go to the 8-706 NRD.
Multifeeds.
0/0/00
?-107
No Product Name Assigned
10 NRD Fault Code Tables
Section Name Preliminary Working Document
- Ask the operator which paper tray was used when the jam occurred and go to the 8-701 NRD to perform the actions for the related paper tray.
Fuser jams/wraps/dog ears toward the Fuser Roll - Ensure that Printer Tag 195 is installed.
- Perform the Air Knife Manifold adjustment (ADJ 10-4).
- Perform the Air Knife Pressure and MIM Compressor Air Pressure adjustments (ADJ 10-4).
- Perform the following air pressure checks:
- If the pressure is below 18 PSI during Printer operation (not puffing), enter dC330[10]. Select [MIM Compressor].
Use the Processor Air System Checkout Diagram to check the Air System for leaks.
If there is no pressure drop at puff, check the following components - Air Knife Solenoid for proper operation
- Air Knife holes for contamination ion or clogging - Air Lines for obstructions, kinks, or damage
- Check/replace the Moisture Trap Air Filter (PL 10.11).
- Perform the Fuser Roll Temperature adjustment (ADJ 10-4).
- Ensure that the following PHN NVM Locations (Air Knife Settings) are correct. Use the appropriate level Software dC 131 Table (Section 6, General Procedures, in the Service Manual):
- 180 - 181 - 182 - 183
Check the following components:
- Fuser Agent Pump PHN NVM location 188 is at the value shown in the appropriate level Software dC 131 Table (Section 6, General Procedures, in the Service Manual)
- Fuser Agent Pump (PL 10.9)
- Fuser Agent Lines for damage, kinks, or clogging.
- Fuser Agent Filter (PL 10.9) - Fuser Wick (PL 10.8)
- Metering Blade for contamination or wear (PL 10.8)
- Metering Roll (PL 10.8) for binding bearings. Note: If bearings are bound, check the Donor Roll Loading Arms for damage.
- Donor Roll (PL 10.9) for gouging or chunking.
- Pressure Roll and Donor Roll (Contact Arc) adjustments (ADJ 10-2).
Jams/wraps/dog ears toward the Pressure Roll - Ensure that Printer Tag 195 is installed.
- If the air pressure is 22 PSI or more, especially with lightweight paper, perform the MIM Compressor Air Pressure adjustment (ADJ 10-5).
- Perform the Stripper Finger Baffle ADJ 10-15 and Air Knife Manifold adjustments ADJ 10-4.
- Check for a contaminated Static Brush (PL 11.26).
- Bias the Static Brush as close to the Pressure Roll as possible without contacting the Pressure Roll.
Dark lead edge jams
- Check the setting of Lead Edge Suppression.
Table 1 Chain 10 Fault Codes
Code Description/Reference Procedures
0/0/00
?-108 No Product Name Assigned
10 NRD Fault Code Tables
Preliminary Working Document Section Name
- Go to the third bullet on the previous page and perform the checks.
Overtoning Jams
- Go to the PQ 9-610 High Image Darkness RAP, Service Manual Section 3IQ.
Morning jams
- Ensure that Printer Tag 195 is installed.
Jams entering the Decurler (for 10-104 Faults only)
- Perform the Air Knife Pressure ADJ 10-5 and Vacuum Manifold adjustments (ADJ 10-4).
- Check for damaged or contaminated Decurler Belts (PL 10.13).
- Check for binding or worn Decurler Drive Belts or Pulleys (PL 10.13).
- Replace the Decurler Clutch (PL 10.13) No telltales or indications.
- Measure the voltages of the Prefuser Sensor Q1009 (PHN DIO #2, TS24 (+), TS37(-)) and Fuser Sensor Q1010 (PHN DIO #2, TS21(+), TS37(-)). If there is NOT +0.5 VDC or less, clean or replace the appropriate sensor (PL 8.9 and PL 10.6).
- Check the Fuser Drive Coupling for damage and ensure that it is not binding on the shaft (PL 4.17). Lubricate the shaft to allow free movement in and out along the shaft.
- Check the Photoreceptor Drive Coupling for damage and ensure that it is not binding on the shaft (PL 4.17). Lubri-cate the shaft to allow free movement in and out along the shaft. Ensure that the Photoreceptor is not slipping or stalling on the Photoreceptor Drive Rolls.
- Check the Prefuser Transport for belt slippage and clogged holes.
- Check the Prefuser Vacuum Motor for proper operation.
- Perform the following adjustments:
- Fuser Latch Assembly, Fuser Left and Right Drawer Slide (ADJ 10-12) - Air Knife Manifold (ADJ 10-4)
- Air Knife Pressure (ADJ 10-5)
- Donor Roll ADJ 10-13 and Pressure Roll (Contact Arc), (ADJ 10-2).
- MIM Compressor Air Pressure (ADJ 10-5) - Stripper Finger Baffle (ADJ 10-15) - Pressure Roll (Contact Arc), (ADJ 10-2) - Vacuum Manifold ( ADJ 10-4)
Other dCs: 330[10], 727 BSD 10.2, BSD 10.5, BSD 10.6, BSD 10.7
10-105 10-106 Print TE was late to leave the Decurler Sensor. 1. Enter dC726. Select [25. 10-105&106], [Timing Graphs]. Run 100 sheets of the heaviest print paper the customer has available to the Top Tray. When the test is complete, inspect the timing data for Normal, Late, or Random distri-bution. Perform the checks below which relate to the type of distribution identified in the timing graph.
Late Distribution:
- Top Transport Slip Clutch (PL 10.15)
- Decurler and Top Transport Belts for proper tension or wear - Decurler and Top Transport drives and pulleys
- Decurler Sensor adjustment (ADJ 10-10) Normal or Random Distribution:
- Decurler Sensor adjustment (ADJ 10-10) Table 1 Chain 10 Fault Codes
Code Description/Reference Procedures
0/0/00
?-109
No Product Name Assigned
10 NRD Fault Code Tables
Section Name Preliminary Working Document
- Decurler Exit Baffle adjustment (ADJ 10-8)
- Measure the voltage of the Decurler Sensor Q1009. If the voltage is out of specification replace the sensor (PL 8.9).
- Obstructions in the paper path - Top Transport Slip Clutch (PL 10.15) - Damaged paper path components
- Loose or worn belts or pulleys in the Decurler Transport Drives (PL 10.13) - Loose or worn belts or pulleys in the Top Transport Drives (PL 10.15)
- Ensure that all Top Transport Rolls and Idlers are clean and properly seated and that all springs are properly installed.
2. Print Damage
Other dCs: 330[10], 727 BSD 10.7 Go to the 8-705 NRD.
10-107 Print LE was late to the Top Transport Sensor after it arrived at the Decurler Sensor.
1. Enter dC726. Select [26. 10-107], [Timing Graphs]. Run 100 sheets of the heaviest print paper the customer has available to the Top Tray. When the test is complete, inspect the timing data for Normal, Late, or Random distribu-tion. Perform the checks below which relate to the type of distribution identified in the timing graph.
Late Distribution:
- Top Transport Slip Clutch (PL 10.15)
- Decurler and Top Transport Sensor Actuators for binding Normal or Random Distribution:
- Measure the voltage of the Top Transport Sensor Q1012. If the voltage is out of specification replace the sensor (PL 10.17).
- Obstructions in the paper path - Top Transport Slip Clutch (PL 10.15)
- Loose or worn belts or pulleys in the Top Transport Drives (PL 10.15)
- Ensure that all Top Transport Rolls and Idlers are clean and properly seated and that all springs are properly installed.
2. Print Damage
Other dCs: 330[10], 727 BSD 10.7 Go to the 8-705 NRD.
10-108 10-109 10-110
Print TE was late to leave the Top Transport Sensor. 1. Enter dC726. Select [27. 10-18, 9 &10], [Timing Graphs]. Run 100 sheets of the heaviest print paper the customer has available to the Top Tray. When the timing diagnostic test is complete, inspect the timing data for Normal, Late, or Random distribution. Perform the checks below which relate to the type of distribution identified in the timing graph.
Late Distribution:
- Top Transport Slip Clutch (PL 10.15)
- Top Transport Idlers and Rolls for binding or wear
- Top Transport drives, belts, and pulleys for wear or slipping Normal or Random Distribution:
- Measure the voltage of the Top Transport Sensor Q1012. If the voltage is out of specification replace the sensor (PL 10.17).
- Duplex Gate adjustment (ADJ 10-9) - Obstructions in the paper path - Top Transport Slip Clutch (PL 10.15)
Table 1 Chain 10 Fault Codes
Code Description/Reference Procedures
0/0/00
?-110 No Product Name Assigned
10 NRD Fault Code Tables
Preliminary Working Document Section Name
- Decurler Setting
- Worn or dirty Top Transport Rolls (PL 10.15)
- Worn or damaged Top Transport Drive System components (PL 10.14 and PL 10.18) - Worn or damaged Top Transport pulleys or belts
- Ensure that all Top Transport Rolls and Idlers are clean and properly seated and that all springs are properly installed.
2. Print Damage; Go to the 8-705 NRD.
Other dCs: 727 BSD 10.7 3. Manually actuate and deactuate the Duplex Gate. If the Duplex gate does not move freely, repair or replace it (PL 10.15). Enter dC330 [10] [Cycle Outputs]. Select [Duplex Gate Solenoid]. Press the Continue button. If the solenoid Continues to become sluggish or intermittent as it warms up, replace it (PL 10.16).
10-111 Go to 10-105 NRD 10-112 Go to 10-101 NRD
10-201 Fuser did not reach operating temperature within 7 minutes;
No change (decrease) in Fuser Thermistor resistance for 3 minutes; No change (decrease) in Thermistor resistance within 10 second after clearing fault code 10-204
1. Inspect the Fuser Roll Thermistor and Metering Roll Thermistor for debris or damage and ensure that they are making proper contact.
2. Measure the resistance of the Fuser Roll Thermistor and Metering Roll Thermistor. If 2 Megohms at room temper-ature, or 8.5 to 11K ohms is not measured, replace the defective thermistor (PL 10.4 and PL 10.7).
3. Perform the Fuser Roll Thermostat and Metering Roll Thermostat adjustments (ADJ 10-0 and ADJ 10-1).
4. Enter dC701 [Temperature Setups] and check the Fuser Roll Temperature (ADJ 10-6).
5. Replace the Fuser Relay K1002 (PL 1.2).
6. Check the following components:
- Fuser Heat Rod (PL 10.7)
10-202 Fuser has reached a temperature of 435 degrees F (over-temp).
1. Inspect the Fuser Roll Thermistor and Metering Roll Thermistor for debris or damage and ensure that they are making proper contact.
2. Measure the resistance of the Fuser Roll Thermistor and Metering Roll Thermistor. If 2 Megohms at room temper-ature, or 8.5 to 11K ohms is not measured, replace the defective thermistor (PL 10.4 and PL 10.8).
3. Perform the Fuser Roll Thermostat and Metering Roll Thermostat adjustments (ADJ 10-0 and ADJ 10-1).
4. Enter dC701 [Temperature Setups] and check the Fuser Roll Temperature (ADJ 10-6).
5. Replace the Fuser Relay K1002 (PL 1.2).
6. Check the following components:
- Fuser Heat Rod (PL 10.7) - MIN ADA PWB#1 (PL 1.8) - MIN ADA PWB#2 (PL 1.8) - MIB PWB (PL 1.8) - Wiring and connectors System Fault Group: Other dCs: BSD 10.1
Table 1 Chain 10 Fault Codes
Code Description/Reference Procedures
0/0/00
?-111
No Product Name Assigned
10 NRD Fault Code Tables
Section Name Preliminary Working Document
0-203 Voltage to the Fuser is less than 170 VAC 1. Enter dC140 [Fuser Values]. Select [Continue] and check the Fuser Line Voltage. If the Fuser Line Voltage is low, check the Input Line Voltage for a low condition. If OK, replace the MIN ADA PWB #1 (PL 1.8).
10-204 Go to 10-201 NRD 10-205 Go to 10-201 NRD 10-206 Go to 10-201 NRD
10-210 Metering Roll has not reached a temperature of 250 degrees F within 7 minutes of Continue up; Metering Roll tempera-ture is below 250 degrees F in Print (under-temperatempera-ture)
1. Inspect the Metering Roll Thermistor for debris or damage and ensure that it is making proper contact.
2. Measure the resistance of the Metering Roll Thermistor. If 2 Megohms at room temperature, or 8.5 to 11K ohms is not measured, replace the defective thermistor (PL 10.4 and PL 10.8).
3. Perform the Metering Roll Thermostat adjustment (ADJ 10-1).
4. Enter dC701 [Temperature Setups] and check the Metering Roll Temperature (ADJ 10-7).
BSD 10.1 10-211 Go to 10-210 NRD
10-212 Cam-in Sensor (left) was unblocked during print. 1. Check the Camming Flag for debris or damage.
10-217 Cam-in Sensor (left) was unblocked during Printer initializa-tion.
2. Measure the voltage of the Cam-in Sensor Q1002. If the voltage is out of specification replace the sensor, (PL 10.5).
Other dCs: 330[10] BSD 10.5
10-213 Cam-out Sensor (right) was unblocked during print. 1. Check the Camming Flag for debris or damage.
10-218 Cam-out Sensor (right) was unblocked during Printer initial-ization.
2. Measure the voltage of the Cam-out Sensor Q1003. If the voltage is out of specification replace the sensor, (PL 10.5).
Other dCs: 330[10] BSD 10.5
10-214 Camming Motor failed to stop during cam-in while in print. 1. Check the Camming Flag for debris or damage.
10-215 Camming Motor failed to stop during cam-out while in print. 2. Check the Camming Motor Brake Release Lever to ensure that it is not actuated by wiring, Ozac Tubes, etc., while in the normal operating position.
10-219 Camming Motor failed to stop during cam-out at Printer ini-tialization.
3. Measure the voltage of the Cam-in Sensor Q1002 and the Cam-out Sensor Q1003. If the voltages are out of specification replace the appropriate sensor, (PL 10.5).
Other dCs: 330[10] BSD 10.5
10-216 Camming Motor failed to operate when commanded to do so.
1. Check the Camming Flag for debris or damage.
2. Measure the voltage of the Cam-in Sensor Q1002. If the voltage is out of specification replace the sensor, (PL 10.5).
3. Check the following components:
- Camming Motor Brake (PL 10.3)
- Camming Motor Coupling for loose set screws, damage or wear.
Other dCs: 330[10] BSD 10.3, BSD 10.5 10-217 Go to the 10-212 NRD
10-218 Go to the 10-213 NRD 10-219 Go to the 10-214 NRD
Table 1 Chain 10 Fault Codes
Code Description/Reference Procedures
0/0/00
?-112 No Product Name Assigned