Circuit Inspection

Courtesy of KIA MOTORS AMERICA, INC.

Courtesy of KIA MOTORS AMERICA, INC.

CAN Communication Circuit Inspection (C-CAN)
Inspection Item	Inspection Condition	(+) Probe		(-) Probe		Reference
		Connector	Terminal	Connector	Terminal
C-CAN oscilloscope (IEB)	Ignition "ON".	IEB connector	25 (C-CAN high)	Chassis ground	-	Fig.1 to 6
		IEB connector	26 (C-CAN low)	Chassis ground	-

Information 

It is important to check CAN high and low at the same time to check the waveform of the CAN communication line. The CAN signal is in a bus idle state based on 2.5V (digital "1"), the high signal rises to 3.5V, the low signal falls to 1.5V, and the voltage difference between the high and low signals is "0" when 2V occurs. Is detected. In addition, it monitors whether the high and low signals have opposite voltages based on 2.5V like the waveform on the left, and monitors whether the current CAN signal is transmitted normally.

In CAN communication, a continuous "0" signal of 6 bits or more means occurrence of an error. 1 bit can be easily determined by obtaining the time when "SOF" (Start Of Frame), indicating the start of the frame, occurs. Check if the "0" signal of 6 bits or more occurs continuously during CAN communication waveform check.

1. Reference voltage about 2.5V. (high: 2.5V → 3.5V rise, low: 2.5V → 1.5V drop)
2. Idle (2.5V) section of a certain period.
3. Constant data frame time.
4. High and low symmetrical frame shape.

Courtesy of KIA MOTORS AMERICA, INC.

Courtesy of KIA MOTORS AMERICA, INC.

Courtesy of KIA MOTORS AMERICA, INC.

Courtesy of KIA MOTORS AMERICA, INC.

Courtesy of KIA MOTORS AMERICA, INC.

Courtesy of KIA MOTORS AMERICA, INC.

Good 

• Go to "CAN Communication Circuit Inspection (G-CAN)" procedure.

No Good 

• Repair as necessary and then go to "Verification of Repair " procedure.

CAN Communication Circuit Inspection (G-CAN)
Inspection Item	Inspection Condition	(+) Probe		(-) Probe		Reference
		Connector	Terminal	Connector	Terminal
G-CAN oscilloscope (IEB)	Ignition "ON".	IEB connector	21 (G-CAN high)	Chassis ground	-	Fig.1 to 6
		IEB connector	22 (G-CAN low)	Chassis ground	-

Information 

It is important to check CAN high and low at the same time to check the waveform of the CAN communication line. The CAN signal is in a bus idle state based on 2.5V (digital "1"), the high signal rises to 3.5V, the low signal falls to 1.5V, and the voltage difference between the high and low signals is "0" when 2V occurs. Is detected. In addition, it monitors whether the high and low signals have opposite voltages based on 2.5V like the waveform on the left, and monitors whether the current CAN signal is transmitted normally.

In CAN communication, a continuous "0" signal of 6 bits or more means occurrence of an error. 1 bit can be easily determined by obtaining the time when "SOF" (Start Of Frame), indicating the start of the frame, occurs. Check if the "0" signal of 6 bits or more occurs continuously during CAN communication waveform check.

1. Reference voltage about 2.5V. (high: 2.5V → 3.5V rise, low: 2.5V → 1.5V drop)
2. Idle (2.5V) section of a certain period.
3. Constant data frame time.
4. High and low symmetrical frame shape.

Courtesy of KIA MOTORS AMERICA, INC.

Courtesy of KIA MOTORS AMERICA, INC.

Courtesy of KIA MOTORS AMERICA, INC.

Courtesy of KIA MOTORS AMERICA, INC.

Courtesy of KIA MOTORS AMERICA, INC.

Courtesy of KIA MOTORS AMERICA, INC.

Good 

• Fault might be intermittent and caused either by poor contact in connectors or wiring harness, or it has been repaired and control module memory is not cleared yet. Thoroughly check terminal of battery, all connectors (and connections) for looseness, bending, corrosion, contamination, deterioration, and/or damage.
• Repair or replace as necessary and then go to "Verification of Repair " procedure.

  * In case of replacing the component, perform following "System Inspection" procedure.

No Good 

• Repair open or short in circuit and then go to "Verification of Repair " procedure.