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Description
ATi’s Prop Shaft Telemetry Systems transmit torque signals from rotating shafts to a stationary telemetry receiver. It connects directly to strain gages adhered to the shaft, converting it into a torque sensor, allowing it to transmit shaft torque while the vehicle is operating. This system is a testing tool used by automotive and racing engineers to obtain real-time torque measurements from vehicle drivelines. The system can be installed on most any size shaft and is completely field installable by the user.
Power to the transmitter and rotating electronics can be supplied several ways. The best way for you depends on your application. The following paragraphs will give you a quick overview of the benefits of each method:
Low Power Digital Prop Shaft Telemetry Systems
Power can be supplied by a rechargeable lithium cell, rechargeable Lithium battery packs, or standard and high temperature (Tadiran) non batteries. To extend battery life, the Transmitter continuously checks for control signals from the Receiver. When it detects that the Receiver is turned off or is out of range, the Transmitter automatically goes into an ultralow power Sleep mode conserving battery power. When in Sleep mode, it periodically wakes up to check for the presence of the Receiver’s control signal. When this signal is sensed, the Transmitter fully powers up and resumes transmitting sensor data. See more…
Rechargeable Battery Powered Prop Shaft Telemetry Systems
Power is supplied by an ATi provided, Lithium battery pack. The transmitter can be turned on and off remotely from the receiver. Additional features include transmitter status and battery level presented on the Model 2125B or 3125B Receiver display. See more…
Rechargeable Battery Powered Systems are also available in a Band-On version. See more…
Inductively Powered Prop Shaft Telemetry Systems
Power is supplied to the transmitter inductively for continuous, non-interrupted measurements. No batteries are required because the Induction Power Supply (IPS) delivers power through a stationary loop antenna to a rotating loop antenna. The rotating loop antenna and Induction Power Converter are embedded into the collar assembly. Additional features include transmitter status and induction power level presented on the Model 2125i(R) or 3125i(R) Receiver display. See more…