2006 ACURA CSX Service Repair Manual

engine oil capacity parking sensors suspension park assist ECO mode coolant level

Page 353 of 2893

ACURA CSX 2006 Service Repair Manual ´´ µ
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ECM/PCM Inputs and Outputs at Connector B ( ) (44P)
Terminal
numberWire color Terminal name DescriptionSignal
11-30Fuel and Emissions System

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ACURA CSX 2006 Service Repair Manual µµ
´ ´
Ó
ECM/PCM Inputs and Outputs at Connector C ( ) (44P)
Terminal
numberWire color Terminal name DescriptionSignal
11-31
NOTE: Standard battery voltage is about 12 V.
1 WHT IG1ETCS (

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´ ´
Ó
ECM/PCM Inputs and Outputs at Connector C ( ) (44P)
Terminal
numberWire color Terminal name DescriptionSignal
11-31
NOTE: Standard battery voltage is about 12 V.
1 WHT IG1ETCS (IGNITION SIGNAL ETCS) Detects ignition signal With ignition switch ON (II): battery voltage
2 BLK PGMETCS (POWER GROUND ETCS) Ground circuit for ECM/
PCMLess than 1.0 V at all times
3 GRN/YEL ETCSM (THROTTLE ACTUATOR SIDE) Ground for throttle actuator With ignition switch ON (II): about 0 V
4 BLU/RED ETCSM (THROTTLE ACTUATOR SIDE) Drives throttle actuator With ignition switch ON (II): about 0 V
5 BRN INJ1 (No. 1 INJECTOR) Drives No. 1 injector At idle: duty controlled With ignition switch ON (II): battery voltage
6 RED INJ2 (No. 2 INJECTOR) Drives No. 2 injector
7 BLU INJ3 (No. 3 INJECTOR) Drives No. 3 injector
8 YEL INJ4 (No. 4 INJECTOR) Drives No. 4 injector
9 WHT/GRN AFSHTC (AIR FUEL RATIO
(A/F) SENSOR HEATER
CONTROL (SENSOR 1)) Drives A/F sensor heater
(sensor 1)
With ignition switch ON (II): battery voltage
With fully warmed up engine running: about 0 V
11 GRN/RED MAP (MANIFOLD ABSOLUTE PRESSURE
(MAP) SENSOR) Detects MAP sensor signal With ignition switch ON (II): about 3.0 V
At idle: about 1.0 V (depending on engine speed)
12 BLU VCC3 (SENSOR VOLTAGE) Provides sensor reference voltageWith ignition switch ON (II): about 5.0 V
13 YEL/RED VCC1 (SENSOR VOLTAGE) Provides sensor reference voltageWith ignition switch ON (II): about 5.0 V
14 GRN/WHT SG1 (SENSOR GROUND) Sensor ground Less than 1.0 V at all times
15 YEL/GRN IGPLS1 (No. 1 IGNITION COIL PULSE) Drives No. 1 ignition coil With ignition switch ON (II): about 0 V
With engine running: pulses
16 BLU/RED IGPLS2 (No. 2 IGNITION COIL PULSE) Drives No. 2 ignition coil
17 WHT/BLU IGPLS3 (No. 3 IGNITION COIL PULSE) Drives No. 3 ignition coil
18 BRN IGPLS4 (No. 4 IGNITION COIL PULSE) Drives No. 4 ignition coil
20 RED/BLK TPSA (THROTTLE POSITION (TP) SENSOR A) Detects TP sensor A signal With throttle fully open: about 3.9 V
With throttle fully closed: about 0.9 V
21 RED/BLU TPSB (THROTTLE POSITION (TP) SENSOR B) Detects TP sensor B signal With throttle fully open: about 4.1 V
With throttle fully closed: about 1.7 V
(cont’d)
Terminal side of female terminals
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ACURA CSX 2006 Service Repair Manual

PGM-FI System
Air Conditioning (A/C) Compressor Clutch Relay
Air Fuel Ratio (A/F) Sensor
Barometric Pressure (BARO) Sensor
Camshaft Position (CMP) Sensor BCrankshaft Position (CKP)

PGM-FI System
Air Conditioning (A/C) Compressor Clutch Relay
Air Fuel Ratio (A/F) Sensor
Barometric Pressure (BARO) Sensor
Camshaft Position (CMP) Sensor BCrankshaft Position (CKP) Sensor
Engine Coolant Temperature (ECT) Sensor 1 and 2
Ignition Timing Control
Injector Timing and Duration
11-33
ZIRCONIA
ELEMENT
SENSOR
TERMINALS
HEATER
TERMINALS
O-RING
MAGNET
TERMINAL TERMINAL
O-RING
MAGNET
THERMISTOR O-RING TERMINAL
The programmed fuel injection (PGM-FI) system is a
sequential multiport fuel injection system.
When the ECM/PCM receives a demand for cooling
from the A/C system, it delays the compressor from
being energized, and enriches the mixture to assure
smooth transition to the A/C mode.
The A/F sensor operates over a wide air/fuel range. The
A/F sensor is installed upstream of the TWC, and sends
signals to the ECM/PCM which varies the duration of
fuel injection accordingly.
The BARO sensor is inside the ECM/PCM. It converts
atmospheric pressure into a voltage signal that
modifies the basic duration of the fuel injection
discharge.
CMP sensor B detects the position of the No. 1 cylinder
as a reference for sequential fuel injection to each
cylinder. The CKP sensor detects crankshaft speed and is used by
the ECM/PCM to determine the ignition timing, timing
for the fuel injection of each cylinder, and engine
misfire detection.
ECT sensors 1 and 2 are temperature dependent
resistors (thermistors). The resistance decreases as the
engine coolant temperature increases.
The ECM/PCM contains the memory for basic ignition
timing at various engine speeds and manifold absolute
pressures. It also adjusts the timing according to engine
coolant temperature and intake air temperature.
The ECM/PCM contains the memory for basic discharge
duration at various engine speeds and manifold
pressures. The basic discharge duration, after being
read out from the memory, is further modified by
signals sent from various sensors to obtain the final
discharge duration.
By monitoring long term fuel trim, the ECM/PCM
detects long term malfunctions in the fuel system and
sets diagnostic trouble codes (DTCs) if needed.
(cont’d)
08/08/21 14:13:37 61SNR030_110_0033
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ACURA CSX 2006 Service Repair Manual µ
Î

Knock Sensor
Manifold Absolute Pressure (MAP) Sensor
Malfunction Indicator Lamp (MIL) Indication (In relation
to Readiness Codes) Mass Air Flow (MAF) Sensor/Intake Air Tempe

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Knock Sensor
Manifold Absolute Pressure (MAP) Sensor
Malfunction Indicator Lamp (MIL) Indication (In relation
to Readiness Codes) Mass Air Flow (MAF) Sensor/Intake Air Temperature
(IAT) Sensor
Output Shaft (Countershaft) Speed Sensor
A/T
11-34
Fuel and Emissions Systems
System Description (cont’d)
TERMINAL
PIEZO
CERAMIC
ELEMENT
DIAPHRAGM
O-RING TERMINAL HOT WIRE
SENSOR
O-RING
COLD WIRE
SENSOR IAT SENSOR
(THERMISTOR)
MAGNET O-RING
TERMINAL
The knock control system adjusts the ignition timing to
minimize knock.
The MAP sensor converts manifold absolute pressure
into electrical signals to the ECM/PCM.
The vehicle has certain readiness codes that are part of
the on-board diagnostics for the emissions systems. If
the vehicle’s battery has been disconnected or gone
dead, if the DTCs have been cleared, or if the ECM/PCM
has been reset, these codes are reset. In some states,
part of the emissions testing is to make sure these
codes are set to complete. If all of them are not set to
complete, the vehicle may fail the test, or the test
cannot be finished.
To check if the readiness codes are set to complete,
turn the ignition switch to ON (II), but do not start the
engine. The MIL will come on for 15 20 seconds. If it
then goes off, the readiness codes are complete. If it
flashes five times, one or more readiness codes are not
complete. To set each code, drive the vehicle or run the
engine as described in the procedures (see page 11-69). The mass air flow (MAF) sensor/intake air temperature
(IAT) sensor contains a hot wire sensor, a cold wire
sensor, and a thermistor. It is located in the intake air
passage. The resistance of the hot wire sensor, the cold
wire sensor, and the thermistor change due to intake air
temperature and air flow. The control circuit in the MAF
sensor controls the current to keep the hot wire at a set
temperature. The current is converted to voltage in the
control circuit, then output to the ECM/PCM.
This sensor detects countershaft speed.
08/08/21 14:13:38 61SNR030_110_0034
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ACURA CSX 2006 Service Repair Manual

M/T
Secondary Heated Oxygen Sensor (Secondary HO2S)
Accelerator Pedal Position (APP) Sensor
Electronic Throttle Control System
11-35
TERMINAL
MAGNET O-RING O-RING
ZIRCONIA
ELEMENT SENSOR

Page 359 of 2893

ACURA CSX 2006 Service Repair Manual Throttle Body
Brake Pedal Position Switch
Electrical Power Steering (EPS) Signal
Fuel Cutoff Control
Fuel Pump Control
PGM-FI Main Relay 1 and 2
Idle Control System
Fuel Supply System
11-36Fuel an

Throttle Body
Brake Pedal Position Switch
Electrical Power Steering (EPS) Signal
Fuel Cutoff Control
Fuel Pump Control
PGM-FI Main Relay 1 and 2
Idle Control System
Fuel Supply System
11-36Fuel and Emissions Systems
System Description (cont’d)
THROTTLE VALVE
THROTTLE POSITION
(TP) SENSOR and
THROTTLE ACTUATOR
The throttle body is a single-barrel side draft type. The
lower portion of the throttle valve is heated by engine
coolant from the cylinder head to prevent icing of the
throttle plate. When the engine is cold, the A/C compressor is on, the
transmission is in gear, the brake pedal is pressed, the
power steering load is high, or the alternator is
charging, the ECM/PCM sends signal to the throttle
position to maintain the correct idle speed.
The brake pedal position switch signals the ECM/PCM
when the brake pedal is pressed.
The EPS signals the ECM/PCM when the power steering
load is high.
During deceleration with the throttle valve closed,
current to the injectors is cut off to improve fuel
economy at engine speeds over 1,000 rpm. Fuel cutoff
control also occurs when the engine speed exceeds
6,900 rpm (K20Z3: 8,200 rpm), regardless of the
position of the throttle valve, to protect the engine from
over-revving. When the vehicle is st
opped, the ECM/
PCM cuts the fuel at engine speeds over 5,000 rpm
(K20Z3: 7,700 rpm). On a cold engine, fuel cut occurs at
a lower engine speed.
When the ignition switch is turned to ON (II), the ECM/
PCM grounds PGM-FI main relay 2 (FUEL PUMP) which
feeds current to the fuel pump for 2 seconds to
pressurize the fuel system. With the engine running, the
ECM/PCM grounds PGM-FI main relay 2 (FUEL PUMP)
and feeds current to the fuel pump. When the engine is
not running and the ignition is turned to ON (II), the
ECM/PCM cuts ground to PGM-FI main relay 2 (FUEL
PUMP) which cuts current to the fuel pump.
PGM-FI main relay 1 is energized whenever the ignition
switch is ON (II), to supply battery voltage to the ECM/
PCM, power to the injectors, and power for PGM-FI
main relay 2 (FUEL PUMP). PGM-FI main relay 2 (FUEL
PUMP) is energized to supply power to the fuel pump
for 2 seconds when the ignition switch is turned to
ON (II), and when the engine is cranking or running.
08/08/21 14:13:39 61SNR030_110_0036
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Page 360 of 2893

ACURA CSX 2006 Service Repair Manual
i-VTEC
11-37
LOW SPEED CAMHIGH SPEED CAM
HIGH
ENGINE SPEED HIGH
LOW
LOW
ENGINE
LOAD
TORQUE CURVE
The i-VTEC system has a variable valve timing control (VTC) mechanism on the intake camshaft in

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