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Shopping for 1995-Mercedes-Benz-SL320

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Pressure Sensor

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Manifold Pressure (MAP) Sensor

Manifold Pressure (MAP) Sensor for Mercedes-Benz C220 C280 E320 E420 S420 S500

3-year warranty

90 days free return

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Vehicle: 1995 Mercedes-Benz SL320

HVAC Pressure Transducer Pressure Switch

HVAC Pressure Transducer Pressure Switch for Mercedes-Benz W202 C220 Chrysler

3-year warranty

90 days free return

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Vehicle: 1995 Mercedes-Benz SL320

AC Condenser Fan Switch

AC Condenser Fan Switch for Mercedes-Benz W124 R129 SL320 SL500 SL600 300E 300D

Quantity Less than 5

3-year warranty

90 days free return

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Vehicle: 1995 Mercedes-Benz SL320

HVAC Binary Switch

HVAC Binary Switch for Mercedes-Benz E300 E320 E420 E500 SL320 SL500 190D 300CD

3-year warranty

90 days free return

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Vehicle: 1995 Mercedes-Benz SL320

HVAC Binary Switch

HVAC Binary Switch for Mercedes-Benz SL320 R129 1994-1995 3.2L Naturally Aspirated

3-year warranty

90 days free return

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Vehicle: 1995 Mercedes-Benz SL320

Standard AS357 Manifold Absolute Pressure Sensor

Standard AS357 Manifold Absolute Pressure Sensor

3-year warranty

90 days free return

Add Trim and Engine info to ensure a guaranteed fit

Vehicle: 1995 Mercedes-Benz SL320

ÜRO Parts 0115420617 Manifold Absolute Pressure Sensor

ÜRO Parts 0115420617 Manifold Absolute Pressure Sensor

3-year warranty

90 days free return

Add Trim and Engine info to ensure a guaranteed fit

Vehicle: 1995 Mercedes-Benz SL320

Types of car pressure sensors and how they work

Tire pressure sensor (TPMS)

Principle: TPMS sensors typically use a piezoelectric or capacitive pressure sensor technology.
Operation: Each TPMS sensor is mounted inside a tire and constantly monitors the air pressure. When the pressure decreases, the sensor's internal diaphragm or structure deforms, causing a change in capacitance or generating a voltage.
Transmission: The sensor wirelessly transmits the pressure data to the vehicle's onboard computer, which processes the information and triggers a warning light on the dashboard if the pressure falls below a predefined threshold.

Manifold absolute pressure (MAP) sensor

Principle: MAP sensors often use a piezoresistive or capacitive element.
Operation: The MAP sensor measures the pressure in the engine's intake manifold. As the engine sucks in air, the pressure in the manifold changes. The sensor responds to these changes by altering its electrical properties, such as resistance or capacitance.
Signal Processing: The sensor's output is sent to the Engine Control Unit (ECU), which uses this data to optimize fuel injection and air-fuel mixture for engine performance and emissions control.

Oil pressure sensor

Principle: Oil pressure sensors typically use a piezoresistive sensing element.
Operation: The oil pressure sensor is mounted in the engine and monitors the pressure of engine oil. When the oil pressure changes, it causes a corresponding change in the sensor's electrical resistance.
Output: The sensor's output is sent to the ECU and may also be used to trigger a warning light on the dashboard if oil pressure drops too low.

Transmission fluid pressure sensor

Principle: These sensors often use piezoelectric or piezoresistive elements.
Operation: Transmission fluid pressure sensors monitor the hydraulic pressure in the transmission. Changes in pressure result in a change in the sensor's electrical properties.
Signal Processing: The sensor's output is used to control transmission functions, such as gear shifting and torque converter lockup.

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