Shock Sensors

Manufacturer
Series
Operating Temperature
Mounting Type
Output Type
Termination
Sensor Type
Package / Case
Sensing Range
Sensitivity




Image Part Number Manufacturer Description Series Operating Temperature Mounting Type Output Type Termination Sensor Type Package / Case Sensing Range Sensitivity
PMLE480W-R AVX Corporation SENSOR SHOCK 25G PIEZO FILM - 0°C ~ 70°C (TA) Surface Mount Voltage - Vibration, Piezo Film - 2G ~ 25G 0.608pC/G
PSCE242K-R090C AVX Corporation SENSOR SHOCK 25G PIEZO FILM - 0°C ~ 70°C (TA) Surface Mount Voltage - Vibration, Piezo Film - 2G ~ 25G 0.055pC/G
PSLE382E-R44 AVX Corporation SENSOR SHOCK 25G PIEZO FILM - 0°C ~ 70°C (TA) Surface Mount Voltage - Vibration, Piezo Film - 2G ~ 25G 0.09pC/G
HSS-10G-50W-N Hamlin / Littelfuse SENSOR SHOCK - - - - - - - - -
HSS-2G5-10W-N Hamlin / Littelfuse SENSOR SHOCK - - - - - - - - -
HSS-2G0-50W-N Hamlin / Littelfuse SENSOR SHOCK - - - - - - - - -
HSS-10G-10W-N Hamlin / Littelfuse SENSOR SHOCK PIEZO FILM - - Surface Mount - - Vibration, Piezo Film - - -
HSS-2G5-50W-N Hamlin / Littelfuse SENSOR SHOCK - - - - - - - - -
HSS-5G0-10W-N Hamlin / Littelfuse SENSOR SHOCK - - - - - - - - -
HSS-2G0-10W-N Hamlin / Littelfuse SENSOR SHOCK - - - - - - - - -
Product Image PKGS-25SXAP1-R Murata Electronics SENSOR SHOCK 50G PIEZO FILM - -40°C ~ 85°C Surface Mount Voltage - Vibration, Piezo Film 1208 (3020 Metric) 0 ~ 50G 0.350pC/G
Product Image PKGS-00GXP1-R Murata Electronics SENSOR SHOCK 50G PIEZO FILM - -40°C ~ 85°C Surface Mount Voltage - Vibration, Piezo Film 2-SMD 0 ~ 50G 0.840pC/G
Product Image PKGS-00LDP1-R Murata Electronics SENSOR SHOCK 50G PIEZO FILM - 0°C ~ 70°C (TA) Surface Mount Voltage - Vibration, Piezo Film - 0 ~ 50G 0.840pC/G
Product Image W2DL-02 Omron SENSOR SHOCK BALL 5-12V W2DL 0°C ~ 60°C (TA) Chassis Mount Voltage - Ball - - -
EFJ-G25EF01 Panasonic SENSOR SHOCK 1500G PIEZO FILM - -10°C ~ 60°C (TA) Surface Mount Voltage - Vibration, Piezo Film - 0 ~ 1500G 1mV/g


About Shock Sensors


Shock sensors are devices designed to detect sudden mechanical shocks, impacts, or vibrations and trigger a response or alarm signal. They utilize various sensing mechanisms such as piezoelectric, capacitive, or microelectromechanical systems (MEMS) to detect changes in acceleration or force. Shock sensors are used in applications such as automotive airbag deployment systems, industrial equipment monitoring, security systems, and consumer electronics to detect impacts, collisions, or physical disturbances. They offer advantages such as sensitivity, reliability, and fast response times, enabling rapid detection of shocks or impacts and triggering appropriate actions or safety measures.