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OEM Calibration Requirements for Chevrolet Equinox: How to Confirm What Must Be Calibrated
Start With VIN-Specific ADAS Feature Identification for Chevrolet Equinox
To confirm OEM ADAS Calibration requirements for a Chevrolet Equinox, start by proving the VIN’s exact ADAS build rather than relying on a trim badge. Option packages and mid-year changes can place different cameras and radar units on the same-looking Chevrolet Equinox, which changes calibration requirements and sequencing. Decode the VIN, review option codes, and inventory the driver-assist functions present—lane keeping/centering, adaptive cruise, forward collision warning, automatic emergency braking, traffic sign recognition, blind-spot monitoring, rear cross-traffic alerts, and parking/surround-view features. Then translate that feature list into the physical sensor set on the Chevrolet Equinox. Confirm whether a forward camera is mounted behind the windshield and whether forward radar or corner radar sensors exist in the grille/bumper areas. Note any supporting modules and inputs the OEM may require for calibration prerequisites, such as steering angle, yaw rate, or ride-height data. Record sensor locations and what components or repair areas can disturb them (windshield replacement affects the camera/bracket plane; bumper service affects radar brackets and alignment). This VIN-first approach prevents partial completion, such as calibrating the camera after glass work while missing radar calibration after bracket movement. If the vehicle uses sensor fusion, document that relationship because OEM procedures may require calibrations in a specific order and may require post-validation checks across more than one module. The output of this step should be a simple, repeatable record for the VIN: confirmed feature set, sensor list, module list, and mounting locations. That foundation makes later decisions about static, dynamic, or initialization routines defensible and consistent.
Find the OEM Source of Truth: Service Info, Bulletins, and Position Statements
After the VIN-specific sensor set is confirmed, treat OEM service information as the governing rule for ADAS Calibration on Chevrolet Equinox. The OEM procedure for the applicable year and package defines which modules require calibration, what events trigger it, prerequisites, and acceptance criteria. Technical bulletins and OEM position statements matter because they may update rules after windshield replacement, bracket service, collision repairs, bumper removal, alignment changes, or suspension work. For static ADAS Calibration, OEM documentation typically specifies target type, target distance and height, vehicle centerline references, lighting requirements, and floor-level tolerances. For dynamic ADAS Calibration, OEM documentation defines speed windows, lane-marking quality expectations, and time/distance thresholds needed for the module to finalize learning. Scan-tool prompts can guide execution, but they should not be treated as the “policy,” especially when VIN-specific variations exist; if the scan tool and OEM documents conflict, follow the OEM procedure and note any bulletin that modifies steps for the Chevrolet Equinox. During your review, identify common failure points: ignition state requirements, voltage stability requirements, alignment prerequisites, steering angle prerequisites, and DTC states that block routines. Convert the OEM direction into a short internal checklist that mirrors the rules (trigger → module → method → prerequisites → proof). This keeps ADAS Calibration decisions consistent across repeated jobs and reduces missed steps that create unstable lane assist, false alerts, or intermittent “calibration required” messages after delivery.
Use OEM service info, bulletins, and position statements as the rule set
Identify triggers, required method, and prerequisites for calibration
Build a VIN-specific checklist so calibrations are repeatable
Map Calibration Triggers on Chevrolet Equinox: What Repairs Commonly Require Recalibration
After establishing the OEM procedure, map the calibration triggers that commonly require ADAS Calibration on Chevrolet Equinox. Windshield replacement is a primary trigger when a forward-facing camera is mounted behind the glass, because the camera-to-glass relationship, bracket seating, and optical axis can shift even when the installation looks “normal.” Any camera bracket replacement, re-bonding, or bracket movement is a direct trigger because it changes the reference plane the camera uses. Front-end collision repairs, bumper removal, grille work, and bracket replacement can trigger calibration for radar sensors, even if no warning light is immediately present, because bracket geometry can be disturbed subtly. Wheel alignment changes, suspension work, ride-height changes, and tire size changes may also trigger OEM requirements because these affect how the system interprets lane position and vehicle trajectory. Sensor replacement is an obvious trigger, but sensor movement without replacement is just as important; a shifted mount can create inaccurate distance or lane calculations even if the module communicates normally. Some triggers are module-specific and may require initialization instead of full calibration, such as steering angle sensor service, yaw-rate resets, or power-loss events, depending on OEM direction for the Chevrolet Equinox. Treat this as a map, not a single rule: list the repair event, identify which mounting points were affected, and connect that to the ADAS modules that require calibration. This prevents partial completion (for example, calibrating the camera after windshield work but missing a required radar calibration after bumper bracket service).
Run a Pre-Scan and Baseline Checks: DTCs, Warning Lights, and Prerequisites
Use a pre-scan and baseline checks as your gate before running ADAS Calibration on Chevrolet Equinox. Begin with a full diagnostic scan of ADAS-related modules and record active and stored DTCs, calibration-required indicators, and status fields that show incomplete learning. Save this scan output as baseline evidence for the VIN; it often reveals required calibrations even when the dash is quiet. Next, confirm prerequisites that influence accuracy and routine completion. Verify tire pressures are correct, tires are matched in size, and ride height is not altered by cargo or uneven loading. Confirm stable battery voltage and the correct ignition state so module communication remains reliable during the routine. Inspect the forward camera viewing area: clean the glass around the camera window, confirm the camera is seated properly, and verify no trim, adhesives, tint edges, dash covers, or accessories obstruct the field of view. For radar-equipped Chevrolet Equinox variants, verify the radar bracket is not bent or shifted and that mounting fasteners are secure. If alignment work occurred, verify angles are within spec and steering angle data is plausible; geometry problems can block calibration or lead to unstable results. For static ADAS Calibration, confirm the bay setup can meet OEM requirements (level floor, correct target distances, stable lighting) before you start. This gate step prevents “calibration attempts” on vehicles that are not physically ready and reduces repeat failures, incomplete status, and inconsistent ADAS behavior after delivery.
Run a full pre-scan and save DTCs plus calibration status
Check tires, ride height, battery voltage, and sensor cleanliness
Inspect mounts and correct physical issues before calibrating
Choose the Correct Method: Static vs Dynamic Calibration vs Initialization for Chevrolet Equinox
With the baseline confirmed, apply OEM decision logic to choose the correct ADAS Calibration method for Chevrolet Equinox. Static calibration validates geometry in a controlled environment using targets and measurement relationships; it depends on correct target placement, centerline references, lighting, and floor-level requirements. Dynamic calibration validates learning through a defined drive cycle; it depends on maintaining a required speed window and driving on roads with clear lane markings under conditions the OEM specifies. Some Chevrolet Equinox configurations require both methods in sequence, because static establishes baseline alignment while dynamic finalizes learning under motion; the order and prerequisites are not interchangeable. Initialization/relearn routines may be specified for certain resets (steering angle or yaw-rate relearn, module initialization after power loss), but initialization is not a substitute when the OEM calls for full calibration after a windshield or radar bracket disturbance. Use scan evidence and the VIN-applicable OEM procedure to select the method—if DTCs specify calibration required, follow the routine tied to those codes and that sensor package. Confirm you can meet method prerequisites before starting: do not run static without proper target distances and a level floor, and do not run dynamic on roads that cannot support the speed window or lane-marking quality. Finally, correct physical issues first; calibration should validate correct mounting geometry, not compensate for a mis-seated camera or bent radar bracket on the Chevrolet Equinox.
Verify and Document: Post-Scan Reports, Results, and Proof for Chevrolet Equinox
Finish OEM ADAS Calibration on Chevrolet Equinox with verification and a defensible proof package. Start with a post-scan to confirm calibration-related DTCs are cleared, calibration-required flags are resolved, and module status fields show completion. Save any calibration report or session log that identifies the method used and the outcome (static, dynamic, combined, or initialization), along with module identifiers and timestamps. Pair this with the pre-scan report so you can show a clear “before and after” record tied to the VIN. Complete a final physical inspection: confirm camera and radar housings are seated correctly, verify the camera viewing area is clean, and confirm no trim, tint edges, adhesives, or accessories obstruct sensors. For dynamic routines, confirm completion by scan status rather than assuming time or distance equals success; many systems require specific speeds and lane-marking conditions to finalize. Where safe and appropriate, perform a controlled road validation on clearly marked roads and confirm indicators behave normally without erratic warnings or sudden disengagement. If any warnings persist, avoid repeatedly clearing codes; instead, use scan data to determine whether another module still requires calibration, a prerequisite failed, or a mounting/geometry issue remains. Document prerequisites met (tire pressure, ride height, voltage, alignment status) and store the proof package with the job record. This closes the loop and reduces comebacks driven by intermittent ADAS warnings.
Services
OEM Calibration Requirements for Chevrolet Equinox: How to Confirm What Must Be Calibrated
Start With VIN-Specific ADAS Feature Identification for Chevrolet Equinox
To confirm OEM ADAS Calibration requirements for a Chevrolet Equinox, start by proving the VIN’s exact ADAS build rather than relying on a trim badge. Option packages and mid-year changes can place different cameras and radar units on the same-looking Chevrolet Equinox, which changes calibration requirements and sequencing. Decode the VIN, review option codes, and inventory the driver-assist functions present—lane keeping/centering, adaptive cruise, forward collision warning, automatic emergency braking, traffic sign recognition, blind-spot monitoring, rear cross-traffic alerts, and parking/surround-view features. Then translate that feature list into the physical sensor set on the Chevrolet Equinox. Confirm whether a forward camera is mounted behind the windshield and whether forward radar or corner radar sensors exist in the grille/bumper areas. Note any supporting modules and inputs the OEM may require for calibration prerequisites, such as steering angle, yaw rate, or ride-height data. Record sensor locations and what components or repair areas can disturb them (windshield replacement affects the camera/bracket plane; bumper service affects radar brackets and alignment). This VIN-first approach prevents partial completion, such as calibrating the camera after glass work while missing radar calibration after bracket movement. If the vehicle uses sensor fusion, document that relationship because OEM procedures may require calibrations in a specific order and may require post-validation checks across more than one module. The output of this step should be a simple, repeatable record for the VIN: confirmed feature set, sensor list, module list, and mounting locations. That foundation makes later decisions about static, dynamic, or initialization routines defensible and consistent.
Find the OEM Source of Truth: Service Info, Bulletins, and Position Statements
After the VIN-specific sensor set is confirmed, treat OEM service information as the governing rule for ADAS Calibration on Chevrolet Equinox. The OEM procedure for the applicable year and package defines which modules require calibration, what events trigger it, prerequisites, and acceptance criteria. Technical bulletins and OEM position statements matter because they may update rules after windshield replacement, bracket service, collision repairs, bumper removal, alignment changes, or suspension work. For static ADAS Calibration, OEM documentation typically specifies target type, target distance and height, vehicle centerline references, lighting requirements, and floor-level tolerances. For dynamic ADAS Calibration, OEM documentation defines speed windows, lane-marking quality expectations, and time/distance thresholds needed for the module to finalize learning. Scan-tool prompts can guide execution, but they should not be treated as the “policy,” especially when VIN-specific variations exist; if the scan tool and OEM documents conflict, follow the OEM procedure and note any bulletin that modifies steps for the Chevrolet Equinox. During your review, identify common failure points: ignition state requirements, voltage stability requirements, alignment prerequisites, steering angle prerequisites, and DTC states that block routines. Convert the OEM direction into a short internal checklist that mirrors the rules (trigger → module → method → prerequisites → proof). This keeps ADAS Calibration decisions consistent across repeated jobs and reduces missed steps that create unstable lane assist, false alerts, or intermittent “calibration required” messages after delivery.
Use OEM service info, bulletins, and position statements as the rule set
Identify triggers, required method, and prerequisites for calibration
Build a VIN-specific checklist so calibrations are repeatable
Map Calibration Triggers on Chevrolet Equinox: What Repairs Commonly Require Recalibration
After establishing the OEM procedure, map the calibration triggers that commonly require ADAS Calibration on Chevrolet Equinox. Windshield replacement is a primary trigger when a forward-facing camera is mounted behind the glass, because the camera-to-glass relationship, bracket seating, and optical axis can shift even when the installation looks “normal.” Any camera bracket replacement, re-bonding, or bracket movement is a direct trigger because it changes the reference plane the camera uses. Front-end collision repairs, bumper removal, grille work, and bracket replacement can trigger calibration for radar sensors, even if no warning light is immediately present, because bracket geometry can be disturbed subtly. Wheel alignment changes, suspension work, ride-height changes, and tire size changes may also trigger OEM requirements because these affect how the system interprets lane position and vehicle trajectory. Sensor replacement is an obvious trigger, but sensor movement without replacement is just as important; a shifted mount can create inaccurate distance or lane calculations even if the module communicates normally. Some triggers are module-specific and may require initialization instead of full calibration, such as steering angle sensor service, yaw-rate resets, or power-loss events, depending on OEM direction for the Chevrolet Equinox. Treat this as a map, not a single rule: list the repair event, identify which mounting points were affected, and connect that to the ADAS modules that require calibration. This prevents partial completion (for example, calibrating the camera after windshield work but missing a required radar calibration after bumper bracket service).
Run a Pre-Scan and Baseline Checks: DTCs, Warning Lights, and Prerequisites
Use a pre-scan and baseline checks as your gate before running ADAS Calibration on Chevrolet Equinox. Begin with a full diagnostic scan of ADAS-related modules and record active and stored DTCs, calibration-required indicators, and status fields that show incomplete learning. Save this scan output as baseline evidence for the VIN; it often reveals required calibrations even when the dash is quiet. Next, confirm prerequisites that influence accuracy and routine completion. Verify tire pressures are correct, tires are matched in size, and ride height is not altered by cargo or uneven loading. Confirm stable battery voltage and the correct ignition state so module communication remains reliable during the routine. Inspect the forward camera viewing area: clean the glass around the camera window, confirm the camera is seated properly, and verify no trim, adhesives, tint edges, dash covers, or accessories obstruct the field of view. For radar-equipped Chevrolet Equinox variants, verify the radar bracket is not bent or shifted and that mounting fasteners are secure. If alignment work occurred, verify angles are within spec and steering angle data is plausible; geometry problems can block calibration or lead to unstable results. For static ADAS Calibration, confirm the bay setup can meet OEM requirements (level floor, correct target distances, stable lighting) before you start. This gate step prevents “calibration attempts” on vehicles that are not physically ready and reduces repeat failures, incomplete status, and inconsistent ADAS behavior after delivery.
Run a full pre-scan and save DTCs plus calibration status
Check tires, ride height, battery voltage, and sensor cleanliness
Inspect mounts and correct physical issues before calibrating
Choose the Correct Method: Static vs Dynamic Calibration vs Initialization for Chevrolet Equinox
With the baseline confirmed, apply OEM decision logic to choose the correct ADAS Calibration method for Chevrolet Equinox. Static calibration validates geometry in a controlled environment using targets and measurement relationships; it depends on correct target placement, centerline references, lighting, and floor-level requirements. Dynamic calibration validates learning through a defined drive cycle; it depends on maintaining a required speed window and driving on roads with clear lane markings under conditions the OEM specifies. Some Chevrolet Equinox configurations require both methods in sequence, because static establishes baseline alignment while dynamic finalizes learning under motion; the order and prerequisites are not interchangeable. Initialization/relearn routines may be specified for certain resets (steering angle or yaw-rate relearn, module initialization after power loss), but initialization is not a substitute when the OEM calls for full calibration after a windshield or radar bracket disturbance. Use scan evidence and the VIN-applicable OEM procedure to select the method—if DTCs specify calibration required, follow the routine tied to those codes and that sensor package. Confirm you can meet method prerequisites before starting: do not run static without proper target distances and a level floor, and do not run dynamic on roads that cannot support the speed window or lane-marking quality. Finally, correct physical issues first; calibration should validate correct mounting geometry, not compensate for a mis-seated camera or bent radar bracket on the Chevrolet Equinox.
Verify and Document: Post-Scan Reports, Results, and Proof for Chevrolet Equinox
Finish OEM ADAS Calibration on Chevrolet Equinox with verification and a defensible proof package. Start with a post-scan to confirm calibration-related DTCs are cleared, calibration-required flags are resolved, and module status fields show completion. Save any calibration report or session log that identifies the method used and the outcome (static, dynamic, combined, or initialization), along with module identifiers and timestamps. Pair this with the pre-scan report so you can show a clear “before and after” record tied to the VIN. Complete a final physical inspection: confirm camera and radar housings are seated correctly, verify the camera viewing area is clean, and confirm no trim, tint edges, adhesives, or accessories obstruct sensors. For dynamic routines, confirm completion by scan status rather than assuming time or distance equals success; many systems require specific speeds and lane-marking conditions to finalize. Where safe and appropriate, perform a controlled road validation on clearly marked roads and confirm indicators behave normally without erratic warnings or sudden disengagement. If any warnings persist, avoid repeatedly clearing codes; instead, use scan data to determine whether another module still requires calibration, a prerequisite failed, or a mounting/geometry issue remains. Document prerequisites met (tire pressure, ride height, voltage, alignment status) and store the proof package with the job record. This closes the loop and reduces comebacks driven by intermittent ADAS warnings.
Services
OEM Calibration Requirements for Chevrolet Equinox: How to Confirm What Must Be Calibrated
Start With VIN-Specific ADAS Feature Identification for Chevrolet Equinox
To confirm OEM ADAS Calibration requirements for a Chevrolet Equinox, start by proving the VIN’s exact ADAS build rather than relying on a trim badge. Option packages and mid-year changes can place different cameras and radar units on the same-looking Chevrolet Equinox, which changes calibration requirements and sequencing. Decode the VIN, review option codes, and inventory the driver-assist functions present—lane keeping/centering, adaptive cruise, forward collision warning, automatic emergency braking, traffic sign recognition, blind-spot monitoring, rear cross-traffic alerts, and parking/surround-view features. Then translate that feature list into the physical sensor set on the Chevrolet Equinox. Confirm whether a forward camera is mounted behind the windshield and whether forward radar or corner radar sensors exist in the grille/bumper areas. Note any supporting modules and inputs the OEM may require for calibration prerequisites, such as steering angle, yaw rate, or ride-height data. Record sensor locations and what components or repair areas can disturb them (windshield replacement affects the camera/bracket plane; bumper service affects radar brackets and alignment). This VIN-first approach prevents partial completion, such as calibrating the camera after glass work while missing radar calibration after bracket movement. If the vehicle uses sensor fusion, document that relationship because OEM procedures may require calibrations in a specific order and may require post-validation checks across more than one module. The output of this step should be a simple, repeatable record for the VIN: confirmed feature set, sensor list, module list, and mounting locations. That foundation makes later decisions about static, dynamic, or initialization routines defensible and consistent.
Find the OEM Source of Truth: Service Info, Bulletins, and Position Statements
After the VIN-specific sensor set is confirmed, treat OEM service information as the governing rule for ADAS Calibration on Chevrolet Equinox. The OEM procedure for the applicable year and package defines which modules require calibration, what events trigger it, prerequisites, and acceptance criteria. Technical bulletins and OEM position statements matter because they may update rules after windshield replacement, bracket service, collision repairs, bumper removal, alignment changes, or suspension work. For static ADAS Calibration, OEM documentation typically specifies target type, target distance and height, vehicle centerline references, lighting requirements, and floor-level tolerances. For dynamic ADAS Calibration, OEM documentation defines speed windows, lane-marking quality expectations, and time/distance thresholds needed for the module to finalize learning. Scan-tool prompts can guide execution, but they should not be treated as the “policy,” especially when VIN-specific variations exist; if the scan tool and OEM documents conflict, follow the OEM procedure and note any bulletin that modifies steps for the Chevrolet Equinox. During your review, identify common failure points: ignition state requirements, voltage stability requirements, alignment prerequisites, steering angle prerequisites, and DTC states that block routines. Convert the OEM direction into a short internal checklist that mirrors the rules (trigger → module → method → prerequisites → proof). This keeps ADAS Calibration decisions consistent across repeated jobs and reduces missed steps that create unstable lane assist, false alerts, or intermittent “calibration required” messages after delivery.
Use OEM service info, bulletins, and position statements as the rule set
Identify triggers, required method, and prerequisites for calibration
Build a VIN-specific checklist so calibrations are repeatable
Map Calibration Triggers on Chevrolet Equinox: What Repairs Commonly Require Recalibration
After establishing the OEM procedure, map the calibration triggers that commonly require ADAS Calibration on Chevrolet Equinox. Windshield replacement is a primary trigger when a forward-facing camera is mounted behind the glass, because the camera-to-glass relationship, bracket seating, and optical axis can shift even when the installation looks “normal.” Any camera bracket replacement, re-bonding, or bracket movement is a direct trigger because it changes the reference plane the camera uses. Front-end collision repairs, bumper removal, grille work, and bracket replacement can trigger calibration for radar sensors, even if no warning light is immediately present, because bracket geometry can be disturbed subtly. Wheel alignment changes, suspension work, ride-height changes, and tire size changes may also trigger OEM requirements because these affect how the system interprets lane position and vehicle trajectory. Sensor replacement is an obvious trigger, but sensor movement without replacement is just as important; a shifted mount can create inaccurate distance or lane calculations even if the module communicates normally. Some triggers are module-specific and may require initialization instead of full calibration, such as steering angle sensor service, yaw-rate resets, or power-loss events, depending on OEM direction for the Chevrolet Equinox. Treat this as a map, not a single rule: list the repair event, identify which mounting points were affected, and connect that to the ADAS modules that require calibration. This prevents partial completion (for example, calibrating the camera after windshield work but missing a required radar calibration after bumper bracket service).
Run a Pre-Scan and Baseline Checks: DTCs, Warning Lights, and Prerequisites
Use a pre-scan and baseline checks as your gate before running ADAS Calibration on Chevrolet Equinox. Begin with a full diagnostic scan of ADAS-related modules and record active and stored DTCs, calibration-required indicators, and status fields that show incomplete learning. Save this scan output as baseline evidence for the VIN; it often reveals required calibrations even when the dash is quiet. Next, confirm prerequisites that influence accuracy and routine completion. Verify tire pressures are correct, tires are matched in size, and ride height is not altered by cargo or uneven loading. Confirm stable battery voltage and the correct ignition state so module communication remains reliable during the routine. Inspect the forward camera viewing area: clean the glass around the camera window, confirm the camera is seated properly, and verify no trim, adhesives, tint edges, dash covers, or accessories obstruct the field of view. For radar-equipped Chevrolet Equinox variants, verify the radar bracket is not bent or shifted and that mounting fasteners are secure. If alignment work occurred, verify angles are within spec and steering angle data is plausible; geometry problems can block calibration or lead to unstable results. For static ADAS Calibration, confirm the bay setup can meet OEM requirements (level floor, correct target distances, stable lighting) before you start. This gate step prevents “calibration attempts” on vehicles that are not physically ready and reduces repeat failures, incomplete status, and inconsistent ADAS behavior after delivery.
Run a full pre-scan and save DTCs plus calibration status
Check tires, ride height, battery voltage, and sensor cleanliness
Inspect mounts and correct physical issues before calibrating
Choose the Correct Method: Static vs Dynamic Calibration vs Initialization for Chevrolet Equinox
With the baseline confirmed, apply OEM decision logic to choose the correct ADAS Calibration method for Chevrolet Equinox. Static calibration validates geometry in a controlled environment using targets and measurement relationships; it depends on correct target placement, centerline references, lighting, and floor-level requirements. Dynamic calibration validates learning through a defined drive cycle; it depends on maintaining a required speed window and driving on roads with clear lane markings under conditions the OEM specifies. Some Chevrolet Equinox configurations require both methods in sequence, because static establishes baseline alignment while dynamic finalizes learning under motion; the order and prerequisites are not interchangeable. Initialization/relearn routines may be specified for certain resets (steering angle or yaw-rate relearn, module initialization after power loss), but initialization is not a substitute when the OEM calls for full calibration after a windshield or radar bracket disturbance. Use scan evidence and the VIN-applicable OEM procedure to select the method—if DTCs specify calibration required, follow the routine tied to those codes and that sensor package. Confirm you can meet method prerequisites before starting: do not run static without proper target distances and a level floor, and do not run dynamic on roads that cannot support the speed window or lane-marking quality. Finally, correct physical issues first; calibration should validate correct mounting geometry, not compensate for a mis-seated camera or bent radar bracket on the Chevrolet Equinox.
Verify and Document: Post-Scan Reports, Results, and Proof for Chevrolet Equinox
Finish OEM ADAS Calibration on Chevrolet Equinox with verification and a defensible proof package. Start with a post-scan to confirm calibration-related DTCs are cleared, calibration-required flags are resolved, and module status fields show completion. Save any calibration report or session log that identifies the method used and the outcome (static, dynamic, combined, or initialization), along with module identifiers and timestamps. Pair this with the pre-scan report so you can show a clear “before and after” record tied to the VIN. Complete a final physical inspection: confirm camera and radar housings are seated correctly, verify the camera viewing area is clean, and confirm no trim, tint edges, adhesives, or accessories obstruct sensors. For dynamic routines, confirm completion by scan status rather than assuming time or distance equals success; many systems require specific speeds and lane-marking conditions to finalize. Where safe and appropriate, perform a controlled road validation on clearly marked roads and confirm indicators behave normally without erratic warnings or sudden disengagement. If any warnings persist, avoid repeatedly clearing codes; instead, use scan data to determine whether another module still requires calibration, a prerequisite failed, or a mounting/geometry issue remains. Document prerequisites met (tire pressure, ride height, voltage, alignment status) and store the proof package with the job record. This closes the loop and reduces comebacks driven by intermittent ADAS warnings.
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