Press Release Summary:
With band-pass filter tuned to 56 kHz and monotonic sensitivity vs. frequency response curve from 30–54 kHz, TSSP4056 provides proximity sensing from 10 cm to 2 m inÂ various systems. This fixed-gain IR sensor, which may also be used as reflective sensor,Â detects modulated pulses fromÂ separate IR emitter with sensitivity of 0.4 mW/mÂ².Â Offering readings in under 5 msec using successive approximation techniques, sensor determines distance by varying carrier frequency used to drive emitter.
Original Press Release:
New Vishay Intertechnology Fast Proximity Sensor Eliminates DACs to Lower Costs in Robotics, Toys, and Other Systems
Device Provides Readings in Under 5 ms and Features Monotonic Sensitivity vs. Frequency Response Curve From 30 kHz to 54 kHz
MALVERN, Pa. – Vishay Intertechnology, Inc. (NYSE: VSH) today introduced a new infrared (IR) sensor designed to provide fast, low-cost proximity sensing in a variety of systems. The Vishay Semiconductors TSSP4056 is the industry's first fixed-gain sensor containing a band-pass filter tuned to 56 kHz to feature a monotonic sensitivity vs. frequency response curve from 30 kHz to 54 kHz. The device detects modulated pulses from a separate IR emitter with a high sensitivity of 0.4 mW/m², while fast readings in under 5 ms are possible using successive approximation techniques, as demonstrated in Vishay's Fast Proximity Sensor software.
Typically, proximity sensors determine an object's distance by varying the emitter's drive current to find the threshold emitter power at which the object is just detected, a technique that requires an expensive DAC to drive the emitter. The TSSP4056, however, determines distance by varying the carrier frequency used to drive the emitter between 30 kHz and 54 kHz, thereby finding the threshold frequency at which the sensor just detects the object. This approach doesn't require the microcontroller to contain a DAC, thus lowering overall solution costs. More information on the operating principle behind the TSSP4056 can be found in the application note "Vishay's TSSP4056 Sensor for Fast Proximity Sensing."
The device released today offers proximity sensing from 10 cm up to 2 m and a > 4x dynamic range from its lowest to highest sensitivity. Used as a proximity sensor, the TSSP4056 is ideal for sensing the distance to objects for toys, drones, autonomous robots, and intelligent vicinity switches. The device may also be used as a simple reflective sensor for hand dryers, towel or soap dispensers, water faucets, and toilets; vending machine fall detection; and security and pet gates.
To simplify designs, the TSSP4056 features a PIN photodiode and sensor IC in a compact molded package measuring 6.0 mm by 6.95 mm by 5.6 mm. The IR sensor module operates at a supply voltage range from 2.5 V to 5.5 V and a typical supply current of 0.7 mA. The sensor is designed to receive IR pulses from an emitter with a peak wavelength of 940 nm. The device is insensitive to supply voltage and ripple noise and provides shielding against EMI, while an IR filter suppresses visible light. The TSSP4056 is RoHS-compliant, halogen-free, and Vishay Green.
Samples and production quantities of the proximity sensor are available now, with lead times of four weeks. Pricing for U.S. delivery only starts at $1.00 per piece.
Vishay Intertechnology, Inc., a Fortune 1000 Company listed on the NYSE (VSH), is one of the world's largest manufacturers of discrete semiconductors (diodes, MOSFETs, and infrared optoelectronics) and passive electronic components (resistors, inductors, and capacitors). These components are used in virtually all types of electronic devices and equipment, in the industrial, computing, automotive, consumer, telecommunications, military, aerospace, power supplies, and medical markets. Vishay's product innovations, successful acquisition strategy, and "one-stop shop" service have made it a global industry leader. Vishay can be found on the Internet at www.vishay.com.
Link to Datasheet: http://www.vishay.com/ppg?82458 (TSSP40..)
Link to Images:https://www.flickr.com/photos/vishay/albums/72157662191332854