![]() This standard creates a test method for assessing the ability of electrical components to withstand mechanical shocks. This standard sets up testing methods for determining the effects of a salt-laden atmosphere on electrical connector components, finishes and mechanisms. Probe Damage Test Procedure for Electrical Connectors Maintenance Aging Test Procedure for Electrical Connectors This method is to evaluate the low-level contact resistance of current-carrying members such as pin and socket contacts, relay contacts, wire and crimp connectors, or printed circuit board and contact. Simulated Life Test Procedure for Electrical Connectors This method is to evaluate the dielectric withstanding voltage of electrical connectors, sockets, and coaxial contacts. Visual and Dimensional Inspection Test Procedure for Electrical Connectors, and Sockets This standard creates a testing method for gauging electrical connectors and sockets’ ability to withstand elevated temperatures with or without electrical loading. Temperature Life with or without Electrical Load Test Ozone Exposure Test Procedure for Electrical Connectors This test determines the forces required to mate and un-mate electrical connectors or protective caps with connectors, connectors/sockets. ![]() This test looks at the ability of connectors to withstand solvents that may be used for cleaning components. This standard creates test methods to assess how well electrical connectors/connector assemblies resist degradation in exposure to certain fluids. Normal Force Test Procedure for Electrical ConnectorsĬontact Insertion, Release and Removal ForceĬontact Insertion, Release and Removal Force Test Procedure for Electrical ConnectorsĬontact Resistance Test Procedure for Electrical ConnectorsĬontact Axial Concentricity Test Procedure for Electrical ConnectorsĬrimp Tensile Strength Test Procedure for Electrical Connectorsĭurability Test Procedure for Electrical Connectors and Contacts ![]() It also has the 0-10 turn dial mounted on it to accurately control resistance changes.Acceleration Test Procedure for Electrical ConnectorsĪir Leakage Test Procedure for Electrical ConnectorsĪltitude Immersion Test Procedure For Electrical Connectors WTS-AVR10T-100K - This is the larger brother of WTS-AVR10T-10K with the same specs but having a maximum resistance of 100K Ohms over ten 360 degree turns. A change in resistance can be very accurately controlled by use of a 0-10 turn dial which can also be locked to prevent movement. WTS-AVR10T-10K - This is a 2W precision variable resistor that spans 0-10K Ohms over ten 360 degree turns. Useful for swift application of wide resistance changes. WTS-AVR1T-10K - This is a 2W rated variable resistor that spans 0-10K Ohms in a single turn. In order to assist this process we have created three variable resistors that will be a great addition to any technicians toolbox. This enables sensors to be tested for operation and accuracy, wiring to be diagnosed for shorts or high resistance and ECUs to be confirmed as being able to interpret correct signal voltages or not. ![]() These changes in resistance are useful to a technician in that they can be replicated and substituted on the same signal wires. This has the effect of altering the signal voltage that is being sent to the ECU. A number of sensors use resistance as the method to record the state of change of a vehicle component position etc. These variable resistors are ideal for automotive technicians diagnosing and testing sensors and monitored circuits. Meet our new variable resistors for automotive diagnostics. We are on a roll this month for new product development. New Variable Resistors 10K Ohm and 100K Ohm Special Offers, Promotions and Clearance.Electric and Hybrid Vehicle Safety Tools & Equipment.Automotive Oscilloscope/Meter Leads and Connector Breakouts.Automotive Test Connectors and Adaptors.
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