Requesting a Call:

+86-13431441931

Online Support

[email protected]

Get a Free Quote

Our representative will contact you soon.
Email
Mobile/WhatsApp
Name
Company Name
Message
0/1000
All Categories
Electric motorcycle saddle occupancy sensor

Home /  Products /  Automotive electronics /  Electric motorcycle saddle occupancy sensor

All Categories

Medical
Automotive electronics
Electronic and electrical appliances
Industrial

All Small Categories

Medical
Automotive electronics
Electronic and electrical appliances
Industrial

Automotive-Grade Smart Seat Occupant Sensor for Electric Motorcycles

  • Description
  • Electrical & Performance Parameters
  • Pressure-Resistance Characteristics
  • Environmental & Reliability Specifications
  • Product Structural Specifications

2.jpg3.jpg

Parameter (Unit) Specification / Test Condition Min Typical Max
Untriggered Resistance (MΩ) No external force, sensor surface in a free state 10 $10^7$
Trigger Threshold Resistance (kΩ) Default reference value for trigger detection 200
Trigger Force / Sensitivity (g) Applied pressure corresponding to initial conduction 20 30–50 70
Effective Range (g) Linear / detectable pressure range 20 20,000
Test Voltage (V) Recommended drive voltage for detection circuit DC 3.3 DC 5.0
Operating Current (μA) Passive component, no power supply required 0
Insulation Resistance (MΩ) Between electrodes and the external environment 100
Activation Response Time (ms) From force application to resistance dropping below threshold <1 10
Recovery Time (ms) From force removal to resistance returning to high impedance <15 20

Note: The resistance values listed above are recommended reference thresholds. Actual trigger resistance values can be customized according to the design requirements of the vehicle control system.

Pressure Range (g) Resistance Response Range (Typical) Detection Status
0 (No Load) $>10\text{ M}\Omega$ Unoccupied (Vacant)
20 ~ 100 500 kΩ ~ 1 MΩ Transition Zone
100 ~ 1,000 200 kΩ ~ 500 kΩ Triggered Zone
1,000 ~ 6,000 10 kΩ ~ 200 kΩ Stable Conduction Zone
>6,000 <10 kΩ Full Load Zone

The pressure-resistance response exhibits a non-linear decreasing curve: the greater the pressure, the lower the resistance.

2.1 Other Performance Parameters

Parameter Specification / Value (Unit / Remarks)
Sensor Thickness ≤0.4 mm
Dimensions Customizable (Standard Reference: L 200–350 × W 30–80 mm)
Output Type Two-wire resistance output / Customizable switch level output
Connector Type 2P automotive waterproof connector (SM 2.54 / Customized)
Encapsulation Material Polyether-type TPU / Polyester film (PET)
Humidity Tolerance 5% ~ 90% RH (Operating, non-condensing)
Storage Temperature -40 ~ +85 °C
Operating Temperature -40 ~ +85 °C

All the above parameters refer to the typical specifications of current flexible thin-film pressure sensors in the automotive industry.

2.2 Sensor Port Definition & Description

Pin Number Signal Definition Electrical Description
Pin 1 S1 (Signal 1) Resistance detection output (Connects to controller ADC input)
Pin 2 S2 (Signal 2) Resistance detection common terminal (Connects to controller GND)

Notice: The sensor is a non-polar component; both ports are functionally symmetrical. It is recommended to use a pull-up fixed resistor in the vehicle-side circuit for voltage division sampling.

As an electronic component applied to road vehicles, the VMX-SSS100 is designed and validated in accordance with the environmental adaptability and durability requirements for automotive components specified in the ISO 16750 series (Road vehicles — Environmental conditions and testing for electrical and electronic equipment).

3.1 Climatic Reliability

Test Item Test Conditions Reference Standard Pass Criteria
High-Temperature Storage +85°C, 1000h ISO 16750-4 No performance degradation, no physical deformation
Low-Temperature Storage -40°C, 1000h ISO 16750-4 No performance degradation, no brittle cracking
Temperature Cycling -40°C ~ +85°C, 50 cycles ISO 16750-4 Resistance response deviation ≤±10%
Damp Heat Test 40°C / 93% RH, 48h ISO 16750-4 Insulation performance normal, no internal condensation
Salt Spray Test 5% NaCl, 35°C, 48h ISO 16750-4 Corrosion resistant, electrical performance normal
Waterproof & Dustproof IP65 rating IEC 60529 Waterproof and dustproof, no water ingress

3.2 Mechanical Reliability

Test Item Test Conditions Pass Criteria
Actuation Life (Pressing) ≥1 million times, frequency ≤10Hz, pressure 50N Response point shift ≤±20%, no functional failure
Rolling Test Over 100,000 times, load 1500N Structural integrity intact, function normal
Vibration Test Random vibration, 10~2000Hz, acceleration 20g, 24h No solder joint detachment, no structural loosening
Mechanical Shock Half-sine pulse, peak 50g, duration 11ms No physical damage, electrical performance normal
Bending Fatigue Repeated bending radius R=20mm, ≥10,000 times No breakage in conductive layer, resistance change ≤±5%
Free Drop 1.0m height, dropped to concrete surface, 1 time per each of the 6 faces No physical damage, function normal

The pressing life and bending fatigue test conditions refer to domestic industry-standard testing for flexible pressure sensors. Long-term vibration adaptability complies with the environmental reliability assessment requirements for automotive electronic equipment.

3.3 Electromagnetic Compatibility (EMC)

Test Item Characteristic Description
Electromagnetic Interference (EMI) The sensor is a passive device and generates no electromagnetic emissions during operation.
Electrostatic Discharge (ESD) The device structure is insensitive to electrostatic discharge; no extra protection is required under normal installation environments.
Electromagnetic Susceptibility (EMS) The resistance signal output characteristic is immune to electromagnetic interference, requiring no additional shielding.

The sensor is a passive resistive component with excellent EMC characteristics. It will not introduce any additional interference sources when the vehicle system undergoes EMC certification.

Substrate: High-toughness polyester film (PET)
Functional Layer: Precision-printed conductive electrodes + nano-piezoresistive functional materials
Encapsulation: Polyether-type TPU full sealing or PET film lamination encapsulation
Total Thickness: ≤0.4mm
Customizable Items: Outline dimensions, sensing area layout, pressure range, trigger threshold resistance values.

Get a Free Quote

Our representative will contact you soon.
Email
Mobile/WhatsApp
Name
Company Name
Message
0/1000

Get a Free Quote

Our representative will contact you soon.
Email
Mobile/WhatsApp
Name
Company Name
Message
0/1000