Contents Wiring diagrams Section: Body Electrical All sections

Wiring Systems (General Information) Cadillac Escalade GMT800

Body Electrical 65 illustrations ~9434 words

Fastener Tightening Specifications

ApplicationSpecification
MetricEnglish
Electrical Center Bracket to Front Fender9 N.m80 lb in
Electrical Center Connector Retaining Bolts9 N.m80 lb in
Upper Fender Brace Bolts25 N.m25 lb ft
Wire Harness Block6 N.m53 lb in

Fastener Tightening Specifications

Utility/Van Zoning

All grounds, in-line connectors, pass-through grommets, and splices have identifying numbers that correspond to where they are located in the vehicle. The following table explains the numbering system.

Scheme 81

Scheme 81: Utility/Van Zoning

Scheme 82

Scheme 82

Scheme 83

Scheme 83

Scheme 84

Scheme 84: Electrical Symbols

Scheme 85

Scheme 85

Scheme 86

Scheme 86

Scheme 87

Scheme 87

Scheme 88

Scheme 88

Scheme 89

Scheme 89

Scheme 90

Scheme 90

Scheme 91

Scheme 91

Basic Knowledge Required

Without a basic knowledge of electricity, it will be difficult to use the diagnostic procedures contained in the service manual. You should understand the basic theory of electricity, and know the meaning of voltage (volts), current (amps), and resistance (ohms). You should also be able to read and understand a wiring diagram, as well as understand what happens in a circuit with an open or a shorted wire.

Checking Aftermarket Accessories

Do not connect aftermarket accessories into the following circuits

CAUTIONRefer to SIR CAUTION in Cautions and Notices.
  1. SIR circuits, all such circuits are indicated on circuit diagrams with the SIR symbol. NOTE: Refer to «OBD II SYMBOL DESCRIPTION NOTICE»(/cadillac/escalade/gmt800-2001-2006/remont/oem-general-information/#gm-vehicles-cautions-notices__obdii-symbol-description-notice) in Cautions and Notices.
  2. OBD II circuits, all such circuits are indicated on circuit diagrams with the OBD II symbol.

Always check for aftermarket accessories (non-OEM) as the first step in diagnosing electrical problems. If the vehicle is so equipped, disconnect the system to verify that these add-on accessories are not the cause of the problems.

Possible causes of vehicle problems related to aftermarket accessories include

  1. Power feeds connected to points other than the battery
  2. Antenna location
  3. Transceiver wiring located too close to vehicle electronic modules or wiring
  4. Poor shielding or poor connectors on antenna feed line
  5. Check for recent service bulletins detailing installation guidelines for aftermarket accessories.

Circuit Testing

The Circuit Testing section contains the following diagnostic testing information. Using this information along with the diagnostic procedures will identify the cause of the electrical malfunction.

  1. «Using Connector Test Adapters»(/cadillac/escalade/gmt800-2001-2006/remont/body-electrical/#wiring-systems-general-information__using-connector-test-adapters)
  2. «Probing Electrical Connectors»(/cadillac/escalade/gmt800-2001-2006/remont/body-electrical/#wiring-systems-general-information__probing-electrical-connectors)
  3. «Troubleshooting with a Digital Multimeter»(/cadillac/escalade/gmt800-2001-2006/remont/body-electrical/#wiring-systems-general-information__troubleshooting-with-a-digital-multimeter)
  4. «Troubleshooting with a Test Lamp»(/cadillac/escalade/gmt800-2001-2006/remont/body-electrical/#wiring-systems-general-information__troubleshooting-with-a-test-lamp)
  5. «Using Fused Jumper Wires»(/cadillac/escalade/gmt800-2001-2006/remont/body-electrical/#wiring-systems-general-information__using-fused-jumper-wires)
  6. «Measuring Voltage»(/cadillac/escalade/gmt800-2001-2006/remont/body-electrical/#wiring-systems-general-information__measuring-voltage)
  7. «Measuring Voltage Drop»(/cadillac/escalade/gmt800-2001-2006/remont/body-electrical/#wiring-systems-general-information__measuring-voltage-drop)
  8. «Measuring Frequency»(/cadillac/escalade/gmt800-2001-2006/remont/body-electrical/#wiring-systems-general-information__measuring-frequency)
  9. «Testing for Continuity»(/cadillac/escalade/gmt800-2001-2006/remont/body-electrical/#wiring-systems-general-information__testing-for-continuity)
  10. «Testing for Short to Ground»(/cadillac/escalade/gmt800-2001-2006/remont/body-electrical/#wiring-systems-general-information__testing-for-short-to-ground)
  11. «Testing for a Short to Voltage»(/cadillac/escalade/gmt800-2001-2006/remont/body-electrical/#wiring-systems-general-information__testing-for-a-short-to-voltage)

Using Connector Test Adapters

Note. Do not insert test equipment probes into any connector or fuse block terminal. The diameter of the test probes will deform most terminals. A deformed terminal can cause a poor connection, which can result in system failures. Always use the J 35616-A Connector Test Adapter Kit or the J 42675 Flat Wire Probe Adapter Kit in order to frontprobe terminals. Do not use paper clips or other substitutes as they can damage terminals and cause incorrect measurements.

Probing Electrical Connectors

IMPORTANTAlways be sure to reinstall the connector position assurance (CPA) and terminal position assurance (TPA) when reconnecting connectors or replacing terminals.

Frontprobe

Disconnect the connector and probe the terminals from the mating side (front) of the connector.

Note. Do not insert test equipment probes into any connector or fuse block terminal. The diameter of the test probes will deform most terminals. A deformed terminal can cause a poor connection, which can result in system failures. Always use the J 43907 Connector Test Adapter Kit in order to frontprobe terminals. Do not use paper clips or other substitutes as they can damage terminals and cause incorrect measurements.

Refer to the following table as a guide in selecting the correct test adapter for frontprobing connectors

Scheme 92

Scheme 92: Frontprobe

Backprobe

Important

  1. Backprobe connector terminals only when specifically required in diagnostic procedures.
  2. Do not backprobe a sealed (Weather Pack®) connector, less than a 280 series Metri-Pack connector, a Micro-Pack connector, or a flat wire (dock and lock) connector.
  3. Backprobing can be a source of damage to connector terminals. Use care in order to avoid deforming the terminal, either by forcing the test probe too far into the cavity or by using too large of a test probe.
  4. After backprobing any connector, inspect for terminal damage. If terminal damage is suspected, test for proper terminal contact. Do not disconnect the connector and probe the terminals from the harness side (back) of the connector.

Troubleshooting with a Digital Multimeter

Note. Refer to TEST PROBE NOTICE in Cautions and Notices.

IMPORTANTCircuits which include any solid state control modules, such as the PCM, should only be tested with a 10 megohm or higher impedance digital multimeter such as the J 39200 .

The J 39200 instruction manual is a good source of information and should be read thoroughly upon receipt of the DMM as well as kept on hand for future reference.

A DMM should be used instead of a test lamp in order to test for voltage in high impedance circuits. While a test lamp shows whether voltage is present, a DMM indicates how much voltage is present.

The ohmmeter function on a DMM shows how much resistance exists between 2 points along a circuit. Low resistance in a circuit means good continuity.

IMPORTANTDisconnect the power feed from the suspect circuit when measuring resistance with a DMM. This prevents incorrect readings. DMMs apply such a small voltage to measure resistance that the presence of voltages can upset a resistance reading.

Diodes and solid state components in a circuit can cause a DMM to display a false reading. To find out if a component is affecting a measurement take a reading once, then reverse the leads and take a second reading. If the readings differ the solid state component is affecting the measurement.

Following are examples of the various methods of connecting the DMM to the circuit to be tested

  1. Backprobe both ends of the connector and either hold the leads in place while manipulating the connector or tape the leads to the harness for continuous monitoring while you perform other operations or test driving. Refer to «Probing Electrical Connectors»(/cadillac/escalade/gmt800-2001-2006/remont/body-electrical/#wiring-systems-general-information__probing-electrical-connectors) .
  2. Disconnect the harness at both ends of the suspected circuit where it connects either to a component or to other harnesses.
  3. If the system that is being diagnosed has a specified pinout or breakout box, it may be used in order to simplify connecting the DMM to the circuit or for testing multiple circuits quickly.

Tools Required

J 34142-B 12 V Unpowered Test Lamp

Troubleshooting with a Test Lamp

Note. Refer to TEST PROBE NOTICE in Cautions and Notices.

A test lamp can simply and quickly test a low impedance circuit for voltage.

The J 34142-B is Micro-Pack compatible and comprised of a 12-volt light bulb with an attached pair of leads.

To properly operate this tool use the following procedure.

  1. Attach one lead to ground.
  2. Touch the other lead to various points along the circuit where voltage should be present.
  3. When the bulb illuminates, there is voltage at the point being tested.

J 36169-A Fused Jumper Wire

Using Fused Jumper Wires

The J 36169-A includes small clamp connectors that provide adaptation to most connectors without damage. This fused jumper wire is supplied with a 20-A fuse which may not be suitable for some circuits. Do not use a fuse with a higher rating than the fuse that protects the circuit being tested.

IMPORTANTA fused jumper may not protect solid state components from being damaged.

Measuring Voltage

Note. Refer to TEST PROBE NOTICE in Cautions and Notices.

The following procedure measures the voltage at a selected point in a circuit.

  1. Disconnect the electrical harness connector for the circuit being tested, if necessary.
  2. Enable the circuit and/or system being tested. Use the following methods: Turn ON the ignition, with the engine OFF. Turn ON the engine. Turn ON the circuit and/or system with a scan tool in Output Controls. Turn ON the switch for the circuit and/or system being tested.
  3. Select the V (AC) or V (DC) position on the DMM.
  4. Connect the positive lead of the DMM to the point of the circuit to be tested.
  5. Connect the negative lead of the DMM to a good ground.
  6. The DMM displays the voltage measured at that point.

Measuring Voltage Drop

Note. Refer to TEST PROBE NOTICE in Cautions and Notices.

The following procedure determines the difference in voltage potential between 2 points.

Scheme 93

Scheme 93: Measuring Voltage Drop
  1. Set the rotary dial of the DMM to the V (DC) position.
  2. Connect the positive lead of the DMM to 1 point of the circuit to be tested.
  3. Connect the negative lead of the DMM to the other point of the circuit.
  4. Operate the circuit.
  5. The DMM displays the difference in voltage between the 2 points.

Measuring Frequency

Note. Refer to TEST PROBE NOTICE in Cautions and Notices.

The following procedure determines the frequency of a signal.

IMPORTANTConnecting the DMM to the circuit before pressing the Hz button will allow the DMM to autorange to an appropriate range.
  1. Apply power to the circuit.
  2. Set the rotary dial of the DMM to the V (AC) position.
  3. Connect the positive lead of the DMM to the circuit to be tested.
  4. Connect the negative lead of the DMM to a good ground.
  5. Press the Hz button on the DMM.
  6. The DMM will display the frequency measured.

Testing for Continuity

Note. Refer to TEST PROBE NOTICE in Cautions and Notices.

The following procedures verify good continuity in a circuit.

With a DMM

  1. Set the rotary dial of the DMM to the ohms position.
  2. Disconnect the power feed (i.e. fuse, control module) from the suspect circuit.
  3. Disconnect the load.
  4. Press the MIN MAX button on the DMM.
  5. Connect one lead of the DMM to one end of the circuit to be tested.
  6. Connect the other lead of the DMM to the other end of the circuit.
  7. If the DMM displays low or no resistance and a tone is heard, the circuit has good continuity.

With a Test Lamp

IMPORTANTOnly use the test lamp procedure on low impedance power and ground circuits.
  1. Remove the power feed (i.e. fuse, control module) from the suspect circuit.
  2. Disconnect the load.
  3. Connect 1 lead of the test lamp to 1 end of the circuit to be tested.
  4. Connect the other lead of the test lamp to battery positive voltage.
  5. Connect the other end of the circuit to ground.
  6. If the test lamp illuminates (full intensity), then the circuit has good continuity.

Testing for Short to Ground

Note. Refer to TEST PROBE NOTICE in Cautions and Notices.

The following procedures test for a short to ground in a circuit.

  1. Remove the power feed (i.e. fuse, control module) from the suspect circuit.
  2. Disconnect the load.
  3. Set the rotary dial of the DMM to the ohms position.
  4. Connect 1 lead of the DMM to 1 end of the circuit to be tested.
  5. Connect the other lead of the DMM to a good ground.
  6. If the DMM does NOT display infinite resistance (OL), there is a short to ground in the circuit.
  1. Remove the power feed (i.e. fuse, control module) from the suspect circuit.
  2. Disconnect the load.
  3. Connect 1 lead of the test lamp to battery positive voltage.
  4. Connect the other lead of the test lamp to 1 end of the circuit to be tested.
  5. If the test lamp illuminates, there is a short to ground in the circuit.

Fuse Powering Several Loads

  1. Review the system schematic and locate the fuse that is open.
  2. Open the first connector or switch leading from the fuse to each load.
  3. Connect a DMM across the fuse terminals (be sure that the fuse is powered). When the DMM displays voltage the short is in the wiring leading to the first connector or switch. If the DMM does not display voltage refer to the next step.
  4. Close each connector or switch until the DMM displays voltage in order to find which circuit is shorted.

Testing for a Short to Voltage

Note. Refer to TEST PROBE NOTICE in Cautions and Notices.

The following procedure tests for a short to voltage in a circuit.

  1. Set the rotary dial of the DMM to the V (DC) position.
  2. Connect the positive lead of the DMM to 1 end of the circuit to be tested.
  3. Connect the negative lead of the DMM to a good ground.
  4. Turn ON the ignition and operate all accessories.
  5. If the voltage measured is greater than 1 volt, there is a short to voltage in the circuit.

Testing for Intermittent and Poor Connections

Most intermittent conditions are caused by faulty electrical connections or wiring. Inspect for the following items

  1. Wiring broken inside the insulation
  2. Poor connection between the male and female terminal at a connector.
  3. Poor terminal to wire connection-Some conditions which fall under this description are poor crimps, poor solder joints, crimping over the wire insulation rather than the wire itself and corrosion in the wire to terminal contact area, etc.
  4. Wire insulation which is rubbed through-This causes an intermittent short as the bare area touches other wiring or parts of the vehicle.
  5. Refer to «Inducing Intermittent Fault Conditions»(/cadillac/escalade/gmt800-2001-2006/remont/body-electrical/#wiring-systems-general-information__inducing-intermittent-fault-conditions) in order to duplicate the conditions required in order to verify the complaint.
  6. Refer to «Testing for Electrical Intermittents»(/cadillac/escalade/gmt800-2001-2006/remont/body-electrical/#wiring-systems-general-information__testing-for-electrical-intermittents) for test procedures to detect intermittent open, high resistance, short to ground, and short to voltage conditions.
  7. Refer to «Scan Tool Snapshot Procedure»(/cadillac/escalade/gmt800-2001-2006/remont/body-electrical/#wiring-systems-general-information__scan-tool-snapshot-procedure) for advanced intermittent diagnosis.
  1. J 42675 Flat-Wire Probe Adapter
  2. J 38125-C Terminal Repair Kit

Testing for Proper Terminal Contact

It is important to test terminal contact at the component and any in-line connectors before replacing a suspect component. Mating terminals must be inspected to ensure good terminal contact. A poor connection between the male and female terminal at a connector may be the result of contamination or deformation.

Contamination may be caused by the connector halves being improperly connected. A missing or damaged connector seal, damage to the connector itself, or exposing the terminals to moisture and dirt can also cause contamination. Contamination, usually in the underhood or underbody connectors, leads to terminal corrosion, causing an open circuit or intermittently open circuit.

Deformation is caused by probing the mating side of a connector terminal without the proper adapter, improperly joining the connector halves, or repeatedly separating and joining the connector halves. Deformation, usually to the female terminal contact tang, can result in poor terminal contact causing an open or intermittently open circuit.

Round Wire Connectors

Follow the procedure below to test terminal contact of Metri-Pack or 56 series terminals. Refer to the J 38125-C or the J 38125-4 Instruction Manual for terminal identification.

Follow the procedure below in order to test terminal contact.

  1. Separate the connector halves.
  2. Visually inspect the connector halves for contamination. Contamination may result in a white or green build-up within the connector body or between terminals. This causes high terminal resistance, intermittent contact, or an open circuit. An underhood or underbody connector that shows signs of contamination should be replaced in its entirety: terminals, seals, and connector body.
  3. Using an equivalent male terminal from the J 38125-C , test that the retention force is significantly different between a good terminal and a suspect terminal. Replace the female terminal in question.

Flat Wire (Dock and Lock) Connectors

There are no serviceable parts for flat wire (dock and lock) connectors on the harness side or the component side.

Follow the procedure below in order to test terminal contact.

  1. Remove the component in question.
  2. Visually inspect each side of the connector for signs of contamination. Avoid touching either side of the connector as oil from your skin may be a source of contamination as well.
  3. Visually inspect the terminal bearing surfaces of the flat wire circuits for splits, cracks, or other imperfections that could cause poor terminal contact. Visually inspect the component side connector to ensure that all of the terminals are uniform and free of damage or deformation.
  4. Insert the appropriate adapter from the J 42675 on the flat wire harness connector in order to test the circuit in question.

Inducing Intermittent Fault Conditions

In order to duplicate the customer's concern, it may be necessary to manipulate the wiring harness if the malfunction appears to be vibration related. Manipulation of a circuit can consist of a wide variety of actions, including

  1. Wiggling the harness
  2. Disconnecting a connector and reconnecting
  3. Stressing the mechanical connection of a connector
  4. Pulling on the harness or wire in order to identify a separation/break inside the insulation
  5. Relocating a harness or wires

All these actions should be performed with some goal in mind. For instance, with a scan tool connected, wiggling the wires may uncover a faulty input to the control module. The snapshot option would be appropriate here. Refer to Scan Tool Snapshot Procedure . You may need to load the vehicle in order to duplicate the concern. This may require the use of weights, floorjacks, jackstand, frame machines, etc. In these cases you are attempting to duplicate the concern by manipulating the suspension or frame. This method is useful in finding harnesses that are too short and their connectors pull apart enough to cause a poor connection. A DMM set to Peak Min/Max mode and connected to the suspect circuit while testing can yield desirable results. Refer to Testing for Electrical Intermittents .

Certainly, using the senses of sight, smell, and hearing while manipulating the circuit can provide good results as well.

There may be instances where circuit manipulation alone will not meet the required criteria for the fault condition to appear. In such cases it may be necessary to expose the suspect circuit to other conditions while manipulating the harness.

Such conditions would include high moisture conditions, along with exceptionally high or low temperatures. The following discusses how to expose the circuit to these kinds of conditions.

Salt Water Spray

Some compounds possess the ability to conduct electricity when dissolved in water such as ordinary salt. By mixing table salt with water in sufficient quantities, you can enhance the conductive properties of water so that any circuit which may be sensitive to moisture will more readily fail when liberally sprayed with this mixture.

Mixing 0.35L (12 oz) of water with approximately 1 tablespoon of salt will yield a salt solution of 5 percent. Fill a normal spray bottle with this mixture. This mixture is sufficient to enhance the water's own conductivity. This may cause the circuit to fail more easily when sprayed. Once the mixture is completed, spray the suspect area liberally with the solution. Then, while monitoring either a scan tool or DMM, manipulate the harness as discussed previously.

J 25070 Heat Gun

High Temperature Conditions

If the complaint tends to be heat related, you can simulate the condition using the J 25070.

Using the heat gun, you can heat up the suspected area or component. Manipulate the harnesses under high temperature conditions while monitoring the scan tool or DMM to locate the fault condition.

The high temperature condition may be achieved simply by test driving the vehicle at normal operating temperature. If a heat gun is unavailable, consider this option to enhance your diagnosis. This option does not allow for the same control, however.

Low Temperature Conditions

Depending on the nature of the fault condition, placing a fan in front of the vehicle while the vehicle is in the shade can have the desired effect.

If this is unsuccessful, use local cooling treatments such as ice or a venturi type nozzle (one that provides hot or cold air). This type of tool is capable of producing air stream temperatures down to -18°C (0°F) from one end and 71°C (160°F) from the other. This is ideally suited for localized cooling needs.

Once the vehicle, component, or harness has been sufficiently cooled, manipulate the harness or components in an effort to duplicate the concern.

Testing for Electrical Intermittents

Perform the following procedures while wiggling the harness from side to side. Continue this at convenient points (about 6 inches apart) while watching the test equipment.

  1. «Testing for Short to Ground»(/cadillac/escalade/gmt800-2001-2006/remont/body-electrical/#wiring-systems-general-information__testing-for-short-to-ground)
  2. «Testing for Continuity»(/cadillac/escalade/gmt800-2001-2006/remont/body-electrical/#wiring-systems-general-information__testing-for-continuity)
  3. «Testing for a Short to Voltage»(/cadillac/escalade/gmt800-2001-2006/remont/body-electrical/#wiring-systems-general-information__testing-for-a-short-to-voltage)

If the fault is not identified, perform the procedure below using the MIN MAX feature on the J 39200 DMM. This feature allows you to manipulate the circuit without having to watch the J 39200. The J 39200 will generate an audible tone when a change is detected.

IMPORTANTThe J 39200 must be used in order to perform the following procedure since the J 39200 can monitor current, resistance or voltage while recording the minimum (MIN), and maximum (MAX) values measured.
  1. Connect the J 39200 to both sides of a suspected connector (still connected), or from one end of a suspected circuit to the other. Refer to «Troubleshooting with a Digital Multimeter»(/cadillac/escalade/gmt800-2001-2006/remont/body-electrical/#wiring-systems-general-information__troubleshooting-with-a-digital-multimeter) for information on connecting the J 39200 to the circuit.
  2. Set the rotary dial of the J 39200 to the V (AC) or V (DC) position.
  3. Press the range button of the J 39200 in order to select the desired voltage range.
  4. Press the MIN MAX button of the J 39200. The J 39200 displays 100 ms RECORD and emits an audible tone (beep). IMPORTANT: The 100 ms RECORD mode is the length of time an input must stay at a new value in order to record the full change.
  5. Simulate the condition that is potentially causing the intermittent connection, either by wiggling the connections or the wiring, test driving, or performing other operations. Refer to «Inducing Intermittent Fault Conditions»(/cadillac/escalade/gmt800-2001-2006/remont/body-electrical/#wiring-systems-general-information__inducing-intermittent-fault-conditions) .
  6. Listen for the audible Min Max Alert which indicates that a new minimum or maximum value has been recorded.
  7. Press the MIN MAX button once in order to display the MAX value and note the value.
  8. Press the MIN MAX button again in order to display the MIN value and note the value.
  9. Determine the difference between the MIN and MAX values.
  1. If the variation between the recorded MIN and MAX voltage values is 1 volt or greater an intermittent open or high resistance condition exists. Repair the condition as necessary.
  2. If the variation between the recorded MIN and MAX voltage values is less than 1 volt an intermittent open or high resistance condition does not exist.

Scan Tool Snapshot Procedure

Snapshot is a recording of what a control module on the vehicle was receiving for information while the snapshot is being made. A snapshot may be used to analyze the data during the time a vehicle condition is current. This allows you to concentrate on making the condition occur, rather than trying to view all the data in anticipation of the fault. The snapshot contains information around a trigger point that you have determined. Only a single data list may be recorded in each snapshot. The Scan Tool has the ability to store 2 snapshots. The ability to record 2 snapshots allows comparing hot versus cold and good versus bad vehicle scenarios. The snapshots are stored on a first-in, first-out basis. If a third snapshot is taken, the first snapshot stored in the memory will be lost.

Snapshots can be 1 of 2 types

  1. Snapshot - taken from the Snapshot menu choice
  2. Quick Snapshot - taken from the Data Display soft key choice, does not contain DTC information When a snapshot is taken, it is recorded on the memory card and may contain as many as 1200 frames of information. Because the snapshot is recorded onto the memory card, snapshots are not lost if the Scan Tool is powered down. The snapshot replay screen has a plot soft key that can be of great value for intermittent diagnosis. The snapshot plot feature can help you to quickly determine if a sensor is outside of its expected values by plotting 3 parameters at a time. The data will be displayed both graphically and numerically showing the minimum and maximum values for all frames captured. This is helpful, especially if the fault occurs only once and does not set a DTC.

Wiring Repairs

The Wiring Repairs section contains the following types of wiring repair information. Using these elements together will make wiring repair faster and easier

  1. «Circuit Protection - Fuses»(/cadillac/escalade/gmt800-2001-2006/remont/body-electrical/#wiring-systems-general-information)
  2. «Circuit Protection - Circuit Breakers»(/cadillac/escalade/gmt800-2001-2006/remont/body-electrical/#wiring-systems-general-information__circuit-protection-circuit-breakers)
  3. «Circuit Protection - Fusible Links»(/cadillac/escalade/gmt800-2001-2006/remont/body-electrical/#wiring-systems-general-information__circuit-protection-fusible-links)
  4. «Repairing Damaged Wire Insulation»(/cadillac/escalade/gmt800-2001-2006/remont/body-electrical/#wiring-systems-general-information__repairing-damaged-wire-insulation)
  5. «Splicing Copper Wire Using Splice Clips»(/cadillac/escalade/gmt800-2001-2006/remont/body-electrical/#wiring-systems-general-information__splicing-copper-wire-using-splice-clips)
  6. «Splicing Copper Wire Using Splice Sleeves»(/cadillac/escalade/gmt800-2001-2006/remont/body-electrical/#wiring-systems-general-information__splicing-copper-wire-using-splice-sleeves)
  7. «Splicing Twisted or Shielded Cable»(/cadillac/escalade/gmt800-2001-2006/remont/body-electrical/#wiring-systems-general-information__splicing-twisted-or-shielded-cable)
  8. «Splicing Inline Harness Diodes»(/cadillac/escalade/gmt800-2001-2006/remont/body-electrical/#wiring-systems-general-information__splicing-inline-harness-diodes)
  9. «Heated Oxygen Sensor (HO2S) Wiring Repairs»(/cadillac/escalade/gmt800-2001-2006/remont/body-electrical/#wiring-systems-general-information__heated-oxygen-sensor-ho2s-wiring-repairs)
  10. «SIR/SRS Wiring Repairs»(/cadillac/escalade/gmt800-2001-2006/remont/body-electrical/#wiring-systems-general-information__sirsrs-wiring-repairs)
  11. «Flat Wire Repairs»(/cadillac/escalade/gmt800-2001-2006/remont/body-electrical/#wiring-systems-general-information__flat-wire-repairs)

Scheme 94

Scheme 94: Circuit Protection - Fuses

The fuse is the most common method of an automotive wiring circuit protection. Whenever there is an excessive amount of current flowing through a circuit the fusible element will melt and create an open or incomplete circuit. Fuses are an one time protection device and must be replaced each time the circuit is overloaded. To determine if a fuse is open, remove the suspected fuse and examine the element in the fuse for an open (break). If not broken, also check for continuity using a DMM or a continuity tester. If the element is open or continuity is suspect, replace the fuse with one of equal current rating.

Scheme 95

Scheme 95

Circuit Protection - Circuit Breakers

A circuit breaker is a protective device that is designed to open the circuit when a current load is in excess of the rated breaker capacity. If there is a short or other type of overload condition in the circuit, the excessive current will open the circuit between the circuit breaker terminals. Two types of circuit breakers are used.

Circuit Breaker: This type opens when excessive current passes through it for a period of time. It closes again after a few seconds, and if the cause of the high current is still present, it will open again. The circuit breaker will continue to cycle open and closed until the condition causing the high current is removed.

Positive Temperature Coefficient (PTC) Circuit Breaker: This type greatly increases its resistance when excessive current passes through it. The excessive current heats the PTC device, as the device heats its resistance increases. Eventually the resistance gets so high that the circuit is effectively open. Unlike the ordinary circuit breaker the PTC unit will not reset until the circuit is opened, by removing the voltage from its terminals. Once the voltage is removed the circuit breaker will re-close within a second or 2.

Fusible link is wire designed to melt and break continuity when excessive current is applied. It is often located between or near the battery and starter or electrical center. Use a continuity tester or a DMM at each end of the wire containing the fusible link in order to determine if it is broken. If broken, it must be replaced with fusible link of the same gage size.

IMPORTANTFusible links cut longer than 225 mm (approximately 9 in) will not provide sufficient overload protection.

Repairing Damaged Wire Insulation

If the conductive portion of the wire is not damaged, locate the problem and apply tape around the wire. If the damage is more extensive, replace the faulty segment of the wire. Refer to Splicing Copper Wire Using Splice Clips and follow the instruction to repair the wire.

Scheme 96

Scheme 96: Repairing Damaged Wire Insulation

Scheme 97

Scheme 97

Splicing Copper Wire Using Splice Clips

IMPORTANTWhen making a splice in an area that may be exposed to moisture use a crimp and seal splice sleeve instead of a Splice Clip. Refer to Splicing Copper Wire Using Splice Sleeves .

Tools Required

J 38125-C Terminal Repair Kit

Scheme 98

Scheme 98

Scheme 99

Scheme 99

Scheme 100

Scheme 100

Scheme 101

Scheme 101

Scheme 102

Scheme 102

Scheme 103

Scheme 103
  1. Open the harness. If the harness is taped, remove the tape. To avoid wiring insulation damage, use a sewing ripper in order to cut open the harness. If the harness has a black plastic conduit, pull out the desired wire.
  2. Cut the wire. Cut as little wire off the harness as possible. Ensure that each splice is at least 40 mm (1.5 in) away from other splices, harness branches and connectors. This helps prevent moisture from bridging adjacent splices and causing damage.
  3. Select the proper size and type of wire. The wire must be of equal or greater size than the original (except fusible link). The wire's insulation must have the same or higher temperature rating. Use general purpose insulation for areas that are not subject to high temperatures. Use a cross-linked polyethylene insulated wire for areas where high temperatures are expected. IMPORTANT: Use cross-linked polyethylene wire to replace PVC, but do not replace cross-linked polyethylene with PVC. Cross-linked polyethylene wire is not fuel resistant. Do not use to replace wire where there is the possibility of fuel contact.
  4. Strip the insulation. Select the correct size opening in the wire stripper or work down from the largest size. Strip approximately 7.5 mm (5/16 in) of insulation from each wire to be spliced. Select the proper clip to secure the splice. Follow the instructions in the J 38125-C in order to determine the proper clip size crimp tool and anvil. Overlap the 2 stripped wire ends and hold them between thumb and forefinger.
  5. Center the splice clip (2) over the stripped wires (1) and hold the clip in place. Ensure that the wires extend beyond the clip in each direction. Ensure that no insulation is caught under the clip.
  6. Center the crimp tool over the splice clip and wires.
  7. Apply steady pressure until the crimp tool closes. Ensure that no strands of wire are cut.
  8. Crimp the splice on each end (2).
  9. Apply 60/40 rosin core solder to the opening in the back of the clip. Follow the manufacturer's instructions for the solder equipment.
  10. Tape the splice. Roll on enough tape in order to duplicate the thickness of the insulation on the existing wires.
  11. Additional tape can be applied to the wire if the wire does not belong in a conduit or another harness covering. Use a winding motion in order to cover the first piece of tape.

J 38125-C Terminal Repair Kit

Splicing Copper Wire Using Splice Sleeves

IMPORTANTUse only GM splice sleeves, other splice sleeves may not protect the splice from moisture or provide a good electrical connection.

Use crimp and seal splice sleeves to form a one-to-one splice on all types of insulation except tefzel and coaxial to form a one-to-one splice. Use tefzel and coaxial where there is special requirements such as moisture sealing. Follow the instructions below in order to splice copper wire using crimp and seal splice sleeves.

Scheme 104

Scheme 104

Scheme 105

Scheme 105
  1. Open the harness. If the harness is taped, remove the tape. To avoid wiring insulation damage, use a sewing ripper in order to cut open the harness. If the harness has a black plastic conduit, pull out the desired wire.
  2. Cut the wire. Cut as little wire off the harness as possible. Ensure that each splice is at least 40 mm (1.5 in) away from other splices, harness branches and connectors. This helps prevent moisture from bridging adjacent splices and causing damage.
  3. Select the proper size and type of wire. The wire must be of equal or greater size than the original. The wire's insulation must have the same or higher temperature rating (4). Use general purpose insulation for areas that are not subject to high temperatures. Use a cross-linked polyethylene insulated wire for areas where high temperatures are expected. IMPORTANT: Use cross-linked polyethylene wire to replace PVC, but do not replace cross-linked polyethylene with PVC. Cross-linked polyethylene wire is not fuel resistant. Do not use to replace wire where there is the possibility of fuel contact.
  4. Strip the insulation. Select the correct size opening in the wire stripper or work down from the largest size. Strip approximately 7.5 mm (5/16 in) of insulation from each wire to be spliced (1).
  5. Select the proper splice sleeve (2) and the required crimp nest tool, refer to the Crimp and Seal Splice Table.
  6. Place the nest tool in the J 38125-C crimp tool.
  7. Place the splice sleeve in the crimp tool nest so that the crimp falls at point 1 on the splice.
  8. Close the hand crimper handles slightly in order to hold the splice sleeve firmly in the proper crimp tool nest.
  9. Insert the wires into the splice sleeve until the wire hits the barrel stop. The splice sleeve has a stop in the middle of the barrel in order to prevent the wire from passing through the splice (3).
  10. Close the handles of the J 38125-C until the crimper handles open when released. The crimper handles will not open until the proper amount of pressure is applied to the splice sleeve.
  11. Shrink the insulation around the splice. Using the heat torch apply heat to the crimped area of the barrel. Gradually move the heat barrel to the open end of the tubing. The tubing will shrink completely as the heat is moved along the insulation. A small amount of sealant will come out of the end of the tubing when sufficient shrinkage is achieved.

Splicing Twisted or Shielded Cable

Twisted/shielded cable is used in order to protect wiring from electrical noise. Two-conductor cable of this construction is used between the radio and the Delco-Bose® speaker/amplifier units and other applications where low level, sensitive signals must be carried. Follow the instructions below in order to repair the twisted/shielded cable.

Scheme 106

Scheme 106: Splicing Twisted or Shielded Cable

Scheme 107

Scheme 107

Scheme 108

Scheme 108

Scheme 109

Scheme 109
  1. Remove the outer jacket (1). Use care not to cut into the drain wire of the mylar tape.
  2. Unwrap the tape. Do not remove the tape. Use the tape in order to rewrap the twisted conductors after the splice is made.
  3. Prepare the splice. Untwist the conductors and follow the splicing instructions for copper wire. Staggering the splices by 65 mm is recommended. IMPORTANT: Apply the mylar tape with the aluminum side inward. This ensures good electrical contact with the drain wire.
  4. Re-assemble the cable. Rewrap the conductors with the mylar tape. Use caution not to wrap the drain wire in the tape (1). Follow the splicing instructions for copper wire and splice the drain wire. Wrap the drain wire around the conductors and tape with mylar tape.
  5. Tape over the entire cable. Use a winding motion when you apply the tape.

Splicing Inline Harness Diodes

Many vehicle electrical systems use a diode to isolate circuits and protect the components from voltage spikes. When installing a new diode use the following procedure.

  1. Open the harness. If the harness is taped, remove the tape. To avoid wiring insulation damage, use a sewing ripper in order to cut open the harness. If the harness has a black plastic conduit, pull out the diode.
  2. If the diode is taped to the harness, remove all of the tape.
  3. Check and record the current flow direction and orientation of diode.
  4. Remove the inoperative diode from the harness with a suitable soldering tool. IMPORTANT: If the diode is located next to a connector terminal remove the terminal(s) from the connector to prevent damage from the soldering tool.
  5. Carefully strip away a section of insulation next to the old soldered portion of the wire(s). Do not remove any more than is needed to attach the new diode.
  6. Check current flow direction of the new diode, being sure to install the diode with correct bias. Reference the appropriate service manual wiring schematic to obtain the correct diode installation position.
  7. Attach the new diode to the wire(s) using 60/40 rosin core solder. Before soldering attach some heat sinks (aluminum alligator clips) across the diode wire ends to protect the diode from excessive heat. Follow the manufacturer's instruction for the soldering equipment.
  8. Reinstall terminal(s) into the connector body if previously removed. IMPORTANT: To prevent shorts to ground and water intrusion, completely cover all exposed wire and diode attachment points with tape.
  9. Tape the diode to the harness or connector using electrical tape.

Heated Oxygen Sensor (HO2S) Wiring Repairs

Tools Required

J 38125-C Terminal Repair Kit

Note. Do not solder repairs under any circumstances as this could result in the air reference being obstructed.

If the heated oxygen sensor pigtail wiring, connector, or terminal is damaged the entire oxygen sensor assembly must be replaced. Do not attempt to repair the wiring, connector, or terminals. In order for the sensor to function properly it must have a clean air reference. This clean air reference is obtained by way of the oxygen sensor signal and heater wires.

Any attempt to repair the wires, connectors or terminals could result in the obstruction of the air reference and degrade oxygen sensor performance.

The following guidelines should be used when servicing the heated oxygen sensor

  1. Do not apply contact cleaner or other materials to the sensor or vehicle harness connectors. These materials may get into the sensor, causing poor performance. Also, the sensor pigtail and harness wires must not be damaged in such a way that the wires inside are exposed. This could provide a path for foreign materials to enter the sensor and cause performance problems.
  2. Neither the sensor nor vehicle lead wires should be bent sharply or kinked. Sharp bends, kinks, etc., could block the reference air path through the lead wire.
  3. Do not remove or defeat the oxygen sensor ground wire (where applicable). Vehicles that utilize the ground wire sensor may rely on this ground as the only ground contact to the sensor. Removal of the ground wire will also cause poor engine performance.
  4. To prevent damage due to water intrusion, be sure that the peripheral seal remains intact on the vehicle harness connector.

The engine harness may be repaired using the J 38125-C.

SIR/SRS Wiring Repairs

Tools Required

J 38125-C Terminal Repair Kit

The supplemental inflatable restraint (SIR) system/supplemental restraint system (SRS) requires special wiring repair procedures due to the sensitive nature of the circuitry. Follow the specific procedures and instructions when working with the SIR/SRS system wiring, and the wiring components (such as connectors and terminals).

IMPORTANTDo not use the terminals in the kit in order to replace damaged SIR/SRS system terminals unless specifically indicated by the terminal package.

The tool kit J 38125-C contains the following items

  1. Special sealed splices - in order to repair the SIR/SRS system wiring
  2. A wire stripping tool
  3. A special crimping tool
  4. A heat torch
  5. An instruction manual

The sealed splices have the following 2 critical features

  1. A special heat shrink sleeve environmentally seals the splice. The heat shrink sleeve contains a sealing adhesive inside.
  2. A cross hatched (knurled) core crimp provides necessary contact integrity for the sensitive, low energy circuits.

The J 38125-C also serves as a generic terminal repair kit. The kit contains the following items

  1. A large sampling of common electrical terminals
  2. The correct tools in order to attach the terminals to the wires
  3. The correct tools in order to remove the terminals from the connectors

SIR/SRS Connector (Plastic Body and Terminal Metal Pin) Repair

Use the connector repair assembly packs in order to repair the damaged SIR/SRS wire harness connectors and the terminals. Do not use the connector repair assembly pack in order to repair the pigtails. These kits include an instruction sheet and the sealed splices. Use the sealed splices in order to splice the new wires, connectors, and terminals to the harness. The splice crimping tool is color keyed in order to match the splices from the J 38125-C. You must use the splice crimping tool in order to apply these splices.

The terminals in the SIR/SRS system are made of a special metal. This metal provides the necessary contact integrity for the sensitive, low energy circuits. These terminals are only available in the connector repair assembly packs. Do not substitute any other terminals for those in the assembly packs.

If the individual terminals are damaged on the sensing and diagnostic module (SDM) harness connector, use 1 of the following 2 components in order to replace the SDM harness connector

  1. The SDM harness connector pigtail assembly
  2. The SDM harness connector replacement kit

If the individual terminals are damaged on any other SIR/SRS connection, use the appropriate connector repair assembly pack in order to replace the entire connection. Replace the entire SIR/SRS wiring harness, if needed, in order to maintain SIR/SRS circuit integrity.

SIR/SRS Wire Pigtail Repair

IMPORTANTDo not make wire, connector, or terminal repairs on components with wire pigtails.

A wire pigtail is a wire or wires attached directly to the device (not by a connector). If a wiring pigtail is damaged, you must replace the entire component (with pigtail). The inflatable restraint steering wheel module coil is an example of a pigtail component.

J 38125-C Terminal Repair Kit

SIR/SRS Wire Repair

IMPORTANTRefer to Wiring Repairs in order to determine the correct wire size for the circuit you are repairing. You must obtain this information in order to ensure circuit integrity.

If any wire except the pigtail is damaged, repair the wire by splicing in a new section of wire of the same gage size (0.5 mm, 0.8 mm, 1.0 mm etc.). Use the sealed splices and splice crimping tool from the J 38125-C. Use the following wiring repair procedures in order to ensure the integrity of the sealed splice.

Scheme 110

Scheme 110
IMPORTANTYou must perform the following procedures in the listed order. Repeat the procedure if any wire strands are damaged. You must obtain a clean strip with all of the wire strands intact.

Scheme 111

Scheme 111

Scheme 112

Scheme 112

Scheme 113

Scheme 113

Scheme 114

Scheme 114
  1. Open the harness by removing any tape: Use a sewing seam ripper (available from sewing supply stores) in order to cut open the harness in order to avoid wire insulation damage. Use the crimp and sealed splice sleeves on all types of insulation except tefzel and coaxial. Do not use the crimp and sealed splice sleeve to form a splice with more than 2 wires coming together.
  2. Cut as little wire off the harness as possible. You may need the extra length of wire in order to change the location of a splice.
  3. Adjust splice locations so that each splice is at least 40 mm (1.5 in) away from the other splices, harness branches, or connectors.
  4. Strip the insulation: When adding a length of wire to the existing harness, use the same size wire as the original wire. Perform one of the following items in order to find the correct wire size: Find the wire on the schematic and convert the metric size to the equivalent AWG size. Use an AWG wire gage. If you are unsure of the wire size, begin with the largest opening in the wire stripper and work down until achieving a clean strip of the insulation. Strip approximately 7.5 mm (0.313 in) of insulation from each wire to be spliced. Do not nick or cut any of the strands. Inspect the stripped wire for nicks or cut strands. If the wire is damaged, repeat this procedure after removing the damaged section.
  5. Select the proper sealed splice sleeve according to the wire size. Refer to the above table at the beginning of the repair procedure for the color coding of the splice sleeves and the crimp tool nests.
  6. Use the Splice Crimp Tool from the J 38125-C in order to position the splice sleeve in the proper color nest of the Splice Crimp Tool.
  7. Place the splice sleeve in the nest. Ensure that the crimp falls midway between the end of the barrel and the stop. The sleeve has a stop (3) in the middle of the barrel (2) in order to prevent the wire (1) from going further. Close the hand crimper handles slightly in order to firmly hold the splice sleeve in the proper nest.
  8. Insert the wire into the splice sleeve barrel until the wire hits the barrel stop.
  9. Tightly close the handles of the crimp tool until the crimper handles open when released. The crimper handles will not open until you apply the proper amount of pressure to the splice sleeve. Repeat steps 4 and 5 for the opposite end of the splice.
  10. Using the heat torch, apply heat to the crimped area of the barrel.
  11. Gradually move the heat barrel to the open end of the tubing: The tubing will shrink completely as the heat is moved along the insulation. A small amount of sealant will come out of the end of the tubing when sufficient shrinkage is achieved.

SIR/SRS System Wire Splice Repair

Apply a new splice (not sealed) from the J 38125-C If damage occurs to any of the original equipment splices (3 wires or more) in the SIR/SRS wiring harness. Carefully follow the instructions included in the kit for proper splice clip application.

Connector Position Assurance (CPA)

The connector position assurance (CPA) is a small plastic insert that fits through the locking tabs of all the SIR/SRS system electrical connectors. The CPA ensures that the connector halves cannot vibrate apart. You must have the CPA in place in order to ensure good contact between the SIR/SRS mating terminals.

Terminal Position Assurance (TPA)

The terminal position assurance (TPA) insert resembles the plastic combs used in the control module connectors. The TPA keeps the terminal securely seated in the connector body. Do not remove the TPA from the connector body unless you remove a terminal for replacement.

Flat Wire Repairs

Note. The flat wire within the flex wiring harness is not serviceable. If an open or short exists within the flex wiring harness the complete harness must be replaced.

Connector Repairs

The Connector Repairs section contains the following types of connector repair information. Using these elements together will make connector repair faster and easier

  1. «Connector Position Assurance Locks»(/cadillac/escalade/gmt800-2001-2006/remont/body-electrical/#wiring-systems-general-information__connector-position-assurance-locks)
  2. «Terminal Position Assurance Locks»(/cadillac/escalade/gmt800-2001-2006/remont/body-electrical/#wiring-systems-general-information__terminal-position-assurance-locks)
  3. «Push to Seat Connectors»(/cadillac/escalade/gmt800-2001-2006/remont/body-electrical/#wiring-systems-general-information)
  4. «Pull to Seat Connectors»(/cadillac/escalade/gmt800-2001-2006/remont/body-electrical/#wiring-systems-general-information)
  5. «Weather Pack Connectors»(/cadillac/escalade/gmt800-2001-2006/remont/body-electrical/#wiring-systems-general-information__weather-pack-connectors)
  6. «Repairing Connector Terminals»(/cadillac/escalade/gmt800-2001-2006/remont/body-electrical/#wiring-systems-general-information__repairing-connector-terminals)

Connector Position Assurance Locks

The connector position assurance (CPA) is a small plastic insert that fits through the locking tabs of all the SIR system electrical connectors. The CPA ensures that the connector halves cannot vibrate apart. You must have the CPA in place in order to ensure good contact between the SIR mating terminals.

Terminal Position Assurance Locks

The terminal position assurance (TPA) insert resembles the plastic combs used in the control module connectors. The TPA keeps the terminal securely seated in the connector body. Do not remove the TPA from the connector body unless you remove a terminal for replacement.

Terminal Removal

Follow the steps below in order to repair push to seat connectors.

Scheme 115

Scheme 115: Terminal Removal

Scheme 116

Scheme 116

Scheme 117

Scheme 117
  1. Remove the terminal position assurance (TPA) device, the connector position assurance (CPA) device, and/or the secondary lock.
  2. Separate the connector halves (1).
  3. Use the proper pick or removal tool (1) in order to release the terminal.
  4. Gently pull the cable and the terminal (2) out of the back of the connector.
  5. Re-form the locking device if you are going to reuse the terminal (1).
  6. To repair the terminal, refer to Terminal Repair.

Terminal Repair

  1. Slip the cable seal away from the terminal.
  2. Cut the wire as close to the terminal as possible.
  3. Slip a new cable seal onto the wire.
  4. Strip 5 mm (3/16 in) of insulation from the wire.
  5. Crimp a new terminal to the wire.
  6. Solder the crimp with rosin core solder.
  7. Slide the cable seal toward the terminal.
  8. Crimp the cable seal and the insulation.
  9. If the connector is outside of the passenger compartment, apply grease to the connector.

Reinstalling Terminal

  1. In order to reuse a terminal or lead assembly. Refer to «Wiring Repairs»(/cadillac/escalade/gmt800-2001-2006/remont/body-electrical/#wiring-systems-general-information__wiring-repairs) .
  2. Ensure that the cable seal is kept on the terminal side of the splice.
  3. Insert the lead from the back until it catches.
  4. Install the TPA, CPA and/or the secondary locks.

If the terminal is visibly damaged or is suspected of having a faulty connection, the terminal should be replaced.

Follow the steps below in order to repair pull-to-seat connectors

Scheme 118

Scheme 118: Terminal Removal
  1. Remove the connector position assurance (CPA) device and/or the secondary lock.
  2. Disconnect the connector from the component or separate the connectors for in-line connectors.
  3. Remove the terminal position assurance (TPA) device.
  4. Insert the proper pick or removal tool into the front of the connector body. IMPORTANT: On connectors with more than one terminal the service loop may not be large enough to remove the terminal and crimp on a new one. If the terminal wire does not have a large enough service loop for removal, cut the wire 5 cm (2 in) behind the connector before removal.
  5. Grasp the wire at the back of the connector body and gently push the terminal (1) out the front of the connector body (3).
  1. If the wire needed to be cut in order to remove the terminal, gently push a small length of the same size wire through the back of the connector cavity until there is enough wire exposed in order to crimp on a new terminal. If the wire was not cut, cut the existing wire as close to the old terminal as possible.
  2. Strip 5 mm (3/16 in) of insulation from the wire.
  3. Crimp a new terminal to the wire.
  4. Solder the crimp with rosin core solder.

Terminal Installation

  1. Align the terminal and pull the wire from the back of the connector in order to seat the terminal.
  2. If necessary, cut the new wire to proper length and splice with existing circuit. Refer to «Splicing Copper Wire Using Splice Sleeves»(/cadillac/escalade/gmt800-2001-2006/remont/body-electrical/#wiring-systems-general-information__splicing-copper-wire-using-splice-sleeves) .
  3. If the connector is outside of the passenger compartment, apply dielectric grease to the connector.
  4. Install the TPA, CPA and/or the secondary locks.

Weather Pack Connectors

The following is the proper procedure for the repair of Weather Pack® Connectors.

Scheme 119

Scheme 119: Weather Pack Connectors

Scheme 120

Scheme 120
  1. Separate the connector halves (1).
  2. Open the secondary lock. A secondary lock aids in terminal retention and is usually molded to the connector (1).
  3. Grasp the wire and push the terminal to the forward most position. Hold the wire in this position.
  4. Insert the Weather Pack® terminal removal tool into the front (mating end) of the connector cavity until it rests on the cavity shoulder (1).
  5. Gently pull on the wire to remove the terminal through the back of the connector (2). IMPORTANT: Never use force to remove a terminal from a connector.
  6. Inspect the terminal and connector for damage. Repair as necessary. Refer to «Repairing Connector Terminals»(/cadillac/escalade/gmt800-2001-2006/remont/body-electrical/#wiring-systems-general-information__repairing-connector-terminals) .
  7. Reform the lock tang (2) and reset terminal in connector body.
  8. Close secondary locks and join connector halves.
  9. Verify that circuit is complete and working satisfactorily.
  10. Perform system check.

J 38125-C Terminal Repair Kit

Repairing Connector Terminals

Use the following repair procedures in order to repair the following

  1. Push to Seat terminals
  2. Pull to Seat terminals
  3. Weather Pack® terminals

Some terminals do not require all of the steps shown. Skip the steps that do not apply for your immediate terminal repair. The J 38125-C contains further information.

  1. Cut off the terminal between the core and the insulation crimp. Minimize any wire loss. For Weather Pack® terminals, remove the seal.
  2. Apply the correct seal per gage size of the wire. For Weather Pack® terminals, slide the seal back along the wire in order to enable insulation removal.
  3. Remove the insulation.
  4. For Weather Pack® terminals only, align the seal with the end of the cable insulation.
  5. Position the strip in the terminal. For Weather Pack® terminals, position the strip and seal in the terminal.
  6. Hand crimp the core wings.
  7. Hand crimp the insulation wings. For Weather Pack® terminals, hand crimp the insulation wings around the seal and the cable.
  8. Solder all of the hand crimp terminals excepting Micro-Pack 100 World terminals. Soldering Micro-Pack 100 World terminals may damage the terminal.

J 43244 Relay Puller Pliers

Scheme 121

Scheme 121: Removal Procedure
  1. Remove the electrical center cover.
  2. Locate the relay. Refer to «UNDERHOOD FUSE BLOCK»(/cadillac/escalade/gmt800-2001-2006/remont/fuses-circuit-breakers/#fuses-circuit-breakers__underhood-fuse-block) to locate the electrical center where the relay exists. IMPORTANT: Always note the orientation of the relay. Ensure that the electrical center is secure, as not to put added stress on the wires or terminals.
  3. Using the J 43244 (1) position the tool on opposing corners of the relay (2). NOTE: Use J43244 to pull the relay straight out from the electrical center terminals. The use of pliers or a flat bladed tool could damage the electrical center.
  4. Remove the relay (2) from the electrical center.

Scheme 122

Scheme 122: Installation Procedure
  1. Install the relay (2) in the same position as removed.
  2. Install the electrical center cover.

Scheme 123

Scheme 123: Removal Procedure
  1. Locate the relay. Refer to the «BUZZERS, RELAYS & TIMERS»(/cadillac/escalade/gmt800-2001-2006/remont/electrical-component-locations/#electrical-component-locator__buzzers-relays-timers) to locate the relay in the vehicle.
  2. Remove any fasteners which hold the relay in place.
  3. Remove any connector position assurance (CPA) devices or secondary locks. IMPORTANT: Use care when removing a relay in a wiring harness when the relay is secured by fasteners or tape.
  4. Separate the relay (1) from the wire harness connector (2).

Scheme 124

Scheme 124: Installation Procedure
  1. Connect the relay (1) to the wire harness connector (2).
  2. Install any connector position assurance (CPA) devices or secondary locks.
  3. Install the relay using any fasteners or tape that originally held the relay in place.

Scheme 125

Scheme 125: Removal Procedure

Scheme 126

Scheme 126

Scheme 127

Scheme 127

Scheme 128

Scheme 128

Scheme 129

Scheme 129
  1. Disconnect the negative battery cable. Refer to «BATTERY NEGATIVE CABLE DISCONNECT/CONNECT PROCEDURE»(/cadillac/escalade/gmt800-2001-2006/remont/body-electrical/#battery) in Engine Electrical.
  2. Remove the left fender upper brace.
  3. Remove the electrical center brace cover assemble by lifting the cover (3) outwards to clear the tabs.
  4. Remove all fuses and relays.
  5. Push on the tab (3) so that the electrical center can be rotated on the studs located at (2).
  6. Remove all connectors by removing the bolt (1) for each connector.
  7. Disconnect all connectors from the electrical center block.
  8. Push on the tabs (2) in order to lift the electrical center (1) out of the housing.
  9. To replace the engine electrical center bracket remove the 4 retaining bolts (1).
  10. Remove the engine electrical center bracket assembly from the fender.

Scheme 130

Scheme 130: Installation Procedure

Scheme 131

Scheme 131

Scheme 132

Scheme 132

Scheme 133

Scheme 133

Scheme 134

Scheme 134
  1. Install the engine electrical center bracket assembly to the front fender. NOTE: Refer to «FASTENER NOTICE»(/cadillac/escalade/gmt800-2001-2006/remont/oem-general-information/#gm-vehicles-cautions-notices__fastener-notice) in Cautions and Notices.
  2. Install the 4 retaining bolts (1). Tighten Tighten the 4 retaining bolts (1) to 9 N.m (80 lb in).
  3. Align the electrical center block (1) stubs in the slots so that the tabs (2) retains it in place.
  4. Connect the wire connectors to the lower portion of the electrical center block.
  5. Connect the wire connectors with the bolts to the electrical center block. Tighten Tighten all connector bolts (1) to 9 N.m (80 Ib. in).
  6. Ensure all wire connectors are securely connected.
  7. Set the electrical center block in its resting position till the tabs (3) locks in place.
  8. Install the lower part of the cover (1).
  9. With the cover (2) off, use the fuse location information to install all fuses and relays.
  10. Install the cover.
  11. Install the fender upper brace.
  12. Install the 4 fender upper brace bolts. Tighten Tighten the 4 retaining bolts to 25 N.m (18 lb ft).
  13. Connect the negative battery cable. Refer to «BATTERY NEGATIVE CABLE DISCONNECT/CONNECT PROCEDURE»(/cadillac/escalade/gmt800-2001-2006/remont/body-electrical/#battery) in Engine Electrical.
  14. Start vehicle and ensure all components function properly.

Scheme 135

Scheme 135: Removal Procedure
  1. Remove the left side end panel.
  2. Remove the knee bolster. Refer to «KNEE BOLSTER REPLACEMENT»(/cadillac/escalade/gmt800-2001-2006/remont/gauges-instrument-panels/#instrument-panel-gages-and-console) in Instrument Panel, Gages and Console.
  3. Disconnect all the wiring connectors from the fuse block.
  4. Remove all the fuses.
  5. Remove the turn signal relay from the back of the fuse block.
  6. From behind the fuse block, remove the retaining bolt.
  7. Insert a screw driver between the fuse block and the wire harness block to separate.
  8. Push on the retainers in order to remove the fuse block.
  9. Remove the fuse block from the vehicle.

Scheme 136

Scheme 136: Installation Procedure
  1. Install the fuse block onto the I/P assembly until it clicks in place.
  2. Install the wire harness block to the back of the fuse block. NOTE: Refer to «FASTENER NOTICE»(/cadillac/escalade/gmt800-2001-2006/remont/oem-general-information/#gm-vehicles-cautions-notices__fastener-notice) in Cautions and Notices.
  3. Install the bolt. Tighten Tighten the bolt to 6 N.m (53 lb in).
  4. Install the turn signal relay to the back of the fuse block.
  5. Using the wiring diagram on the cover of the fuse panel, install the fuses.
  6. Install the electrical connectors.
  7. Install the knee bolster. Refer to «KNEE BOLSTER REPLACEMENT»(/cadillac/escalade/gmt800-2001-2006/remont/gauges-instrument-panels/#instrument-panel-gages-and-console) in Instrument Panel, Gages and Console.
  8. Install the left side end panel.

Scheme 137

Scheme 137: Removal Procedure
  1. Remove the right side end panel.
  2. Push in the tabs in order to remove the fuse block.
  3. Pull out the fuse block out of the I/P in order to remove the retaining bolt.
  4. Loosen the bolt.
  5. Insert a screw driver between the wire harness block and fuse block in order to separate.
  6. Separate the fuse block from the I/P harness block.
  7. Remove the I/P wiring harness block from the vehicle.

Scheme 138

Scheme 138: Installation Procedure

Scheme 139

Scheme 139
  1. Install the fuse block to the I/P wire harness block. NOTE: Refer to «FASTENER NOTICE»(/cadillac/escalade/gmt800-2001-2006/remont/oem-general-information/#gm-vehicles-cautions-notices__fastener-notice) in Cautions and Notices.
  2. Install the retaining bolt. Tighten Tighten the bolt to 6 N.m (53 lb in)
  3. Install the fuse block to the I/P until it clicks in place.
  4. Connect the wiring connectors to the fuse block. Refer to «UNDERHOOD FUSE BLOCK»(/cadillac/escalade/gmt800-2001-2006/remont/fuses-circuit-breakers/#fuses-circuit-breakers__underhood-fuse-block) to ensure the right connections are made.
  5. Install the right side end panel.

Scheme 140

Scheme 140: Removal Procedure

Scheme 141

Scheme 141
  1. Remove the cover retaining nut.
  2. Remove the cover by pushing in the tabs.
  3. Remove the harness from the front of the junction block.
  4. Remove the junction block from the bracket by pressing to release the tabs.
  5. Remove the junction block in order to gain access to the rear of the block to remove the retaining bolts.
  6. Remove the retaining bolts.
  7. Separate the wire harness block from the junction block by inserting a screw driver in between.
  8. Remove the junction block from the vehicle.

Scheme 142

Scheme 142: Installation Procedure

Scheme 143

Scheme 143
  1. Install the wire harness block to the junction block. NOTE: Refer to «FASTENER NOTICE»(/cadillac/escalade/gmt800-2001-2006/remont/oem-general-information/#gm-vehicles-cautions-notices__fastener-notice) in Cautions and Notices.
  2. Install the retaining bolts. Tighten Tighten the bolts to 6 N.m (53 lb in).
  3. Install the junction block to the bracket.
  4. Push on the top part until it clicks in place.
  5. Connect the harness to the front of the junction block.
  6. Install the cover to the junction block until it clicks in place.
  7. Hand tighten the retaining nut until seated.

Scheme 144

Scheme 144: Special Tools and Equipment

Scheme 145

Scheme 145

See also:
SIR CAUTION
OBD II SYMBOL DESCRIPTION NOTICE
TEST PROBE NOTICE
UNDERHOOD FUSE BLOCK
BUZZERS, RELAYS & TIMERS
BATTERY NEGATIVE CABLE DISCONNECT/CONNECT PROCEDURE
FASTENER NOTICE
KNEE BOLSTER REPLACEMENT
Using Connector Test Adapters
Probing Electrical Connectors
Troubleshooting with a Digital Multimeter
Troubleshooting with a Test Lamp
Using Fused Jumper Wires
Measuring Voltage
Measuring Voltage Drop
Measuring Frequency
Testing for Continuity
Testing for Short to Ground
Testing for a Short to Voltage
Inducing Intermittent Fault Conditions
Testing for Electrical Intermittents
Scan Tool Snapshot Procedure
Circuit Protection - Fuses
Circuit Protection - Circuit Breakers
Circuit Protection - Fusible Links
Repairing Damaged Wire Insulation
Splicing Copper Wire Using Splice Clips
Splicing Copper Wire Using Splice Sleeves
Splicing Twisted or Shielded Cable
Splicing Inline Harness Diodes
Heated Oxygen Sensor (HO2S) Wiring Repairs
SIR/SRS Wiring Repairs
Flat Wire Repairs
Wiring Repairs
Connector Position Assurance Locks
Terminal Position Assurance Locks
Weather Pack Connectors
Repairing Connector Terminals