RS Components, Ltd. Datasheets for Incremental Rotary Encoders
Incremental rotary encoders are multi-turn sensors that use optical, mechanical, or magnetic index-counting for angular measurement. They contain no absolute reference, but instead count relative to the turn-on position.
Incremental Rotary Encoders: Learn more
Product Name | Notes |
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∅ 12 mm, 2-phase square waveform output. Can accommodate from 100 to 300 P/R. Low torque, low inertia Pulses Per Revolution = 100 Encoder Technology = Incremental Output Signal Type... | |
∅ 12 mm, 2-phase square waveform output. Can accommodate from 100 to 300 P/R. Low torque, low inertia Pulses Per Revolution = 200 Encoder Technology = Incremental Output Signal Type... | |
∅ 12 mm, 2-phase square waveform output. Can accommodate from 100 to 300 P/R. Low torque, low inertia Pulses Per Revolution = 300 Encoder Technology = Incremental Output Signal Type... | |
∅ 12 mm, can accommodate up to 300 P/R. Ball bearing structure. Low torque, low inertia Pulses Per Revolution = 100 Encoder Technology = Incremental Output Signal Type = Quasi-Sinusoidal... | |
∅ 12 mm, can accommodate up to 300 P/R. Ball bearing structure. Low torque, low inertia Pulses Per Revolution = 300 Encoder Technology = Incremental Output Signal Type = Quasi-Sinusoidal... | |
2-bit gray code, channel A leads channel B by 90° with clockwise rotation. Plastic bushing and end slotted shaft. Long life, 200000 revolutions. Continuous mechanical rotation. Separate horizontal mounting bracket... | |
500ppr encoders designed for fitting directly onto motor shafts etc. Both versions have 2 digital output waveforms which are 90° out of phase to provide resolution and direction information. However,... | |
Adjustable stop switches with rotation that is continuous or limited by means of two supplied stainless steel stop pins. Supplied with shaft and panel seals. Vibration resistance of 10 to... | |
Bourns ES14 rotary optical encoder is for industrial applications requiring long cycle life and high reliability. This optical encoder features a 1/8 Inch stainless steel shaft supported by ball bearings... | |
Brought to you by Alps, this selection of rotary encoders are available as PCB or panel mount with vertical mounting options. These 24 pulse rotary encoders are long life, and... | |
Built-in temperature compensation function. With zero signal (Z phase) Pulses Per Revolution = 100 Encoder Technology = Incremental Output Signal Type = Quadrature Supply Voltage = 5 - 12 V... | |
Built-in temperature compensation function. With zero signal (Z phase) Pulses Per Revolution = 500 Encoder Technology = Incremental Output Signal Type = Quadrature Supply Voltage = 5 - 12 V... | |
Carbon-fibre reinforced polyamide housing. Extended voltage supply range from 4.75 â†' 30 Vdc. Universal output stage, compatible with Totem pole, NPN or PNP and RS422 or TTL line transmitter. Resolution... | |
Collar mounting. Push-pull or complementary versions available Pulses Per Revolution = 100 Encoder Technology = Incremental Maximum Revolutions = 12000rpm Output Signal Type = Push Pull Shaft Type = Solid... | |
Collar mounting. Push-pull or complementary versions available Pulses Per Revolution = 100 Encoder Technology = Incremental Maximum Revolutions = 12000rpm Output Signal Type = TTL Shaft Type = Solid Supply... | |
Collar mounting. Push-pull or complementary versions available Pulses Per Revolution = 1024 Encoder Technology = Incremental Maximum Revolutions = 12000rpm Output Signal Type = Push Pull Shaft Type = Solid... | |
Collar mounting. Push-pull or complementary versions available Pulses Per Revolution = 1024 Encoder Technology = Incremental Maximum Revolutions = 12000rpm Output Signal Type = TTL Shaft Type = Solid Supply... | |
Collar mounting. Push-pull or complementary versions available Pulses Per Revolution = 360 Encoder Technology = Incremental Maximum Revolutions = 12000rpm Output Signal Type = Push Pull Shaft Type = Solid... | |
Collar mounting. Push-pull or complementary versions available Pulses Per Revolution = 360 Encoder Technology = Incremental Maximum Revolutions = 12000rpm Output Signal Type = TTL Shaft Type = Solid Supply... | |
Collar mounting. Push-pull or complementary versions available Pulses Per Revolution = 500 Encoder Technology = Incremental Maximum Revolutions = 12000rpm Output Signal Type = Push Pull Shaft Type = Solid... | |
Collar mounting. Push-pull or complementary versions available Pulses Per Revolution = 500 Encoder Technology = Incremental Maximum Revolutions = 12000rpm Output Signal Type = TTL Shaft Type = Solid Supply... | |
ECW series incremental digital contacting encoder with quadrature output, a long operating life, robust construction and bushing mount. These ECW incremental digital contacting encoders have various shaft styles, please refer... | |
EM14 series 14 mm rotary optical encoders with a compact package size, splashproof shaft seal, high rotational life cycle and HCMOS, CMOS and TTL compatability. These EM14 series rotary optical... | |
EN series rotary optical encoders with two channel quadrature output, a square wave signal and a resolution to 256 PPR. These EN series rotary optical encoders are bushing or servo... | |
Encoders for universal installation thanks to presence of 2 mounting faces, in front and rear. Economical, long-life encoders thanks to the use of ball bearing rollers. Low torque ratio. Housing... | |
Encoders with diameter of 58 mm, for direct mounting at end of motor arm. Reduced housing depth for highly compact mounting. Simplicity and safety of coupling to the shaft thanks... | |
INCREMENTAL ENCODER RI32/360 - Sensors & Transducers - Rotary Encoders | |
Incremental type 15000 operating cycles. Push switch variant (stock No.623-4158). 15 pulse 30 detents. Rated at max. 10mA 5Vdc min. 1mA 5Vdc. Detent Torque 6 +/- 4 mNm Pulses Per... | |
Large 12mm bore available. Spring clamp attached to 12mm version for easy mounting Pulses Per Revolution = 1024 Encoder Technology = Incremental Maximum Revolutions = 12000rpm Output Signal Type =... | |
Large 12mm bore available. Spring clamp attached to 12mm version for easy mounting Pulses Per Revolution = 360 Encoder Technology = Incremental Maximum Revolutions = 12000rpm Output Signal Type =... | |
Large 12mm bore available. Spring clamp attached to 12mm version for easy mounting Pulses Per Revolution = 500 Encoder Technology = Incremental Maximum Revolutions = 12000rpm Output Signal Type =... | |
Linear measurement devices (metric) for linear measurement of running material. Used with 716 single preset counter (stock no. 309-6111) or 717 dual preset (stock no. 309-6155). The transducer does not... | |
Long Operating Life. Conductive plastic element. Quadrature output Pulses Per Revolution = 16 Encoder Technology = Incremental Maximum Revolutions = 120rpm Output Signal Type = Quadrature Shaft Type = Slotted... | |
Long Operating Life. Conductive plastic element. Quadrature output Pulses Per Revolution = 6 Encoder Technology = Incremental Maximum Revolutions = 120rpm Output Signal Type = Quadrature Shaft Type = Slotted... | |
Low cost, high specification. Short overall length. Easy installation with shaft clamp. Mounting plate available Pulses Per Revolution = 2500 Encoder Technology = Incremental Maximum Revolutions = 6000rpm Output Signal... | |
Low cost, high specification. Short overall length. Easy installation with shaft clamp. Mounting plate available Pulses Per Revolution = 5000 Encoder Technology = Incremental Maximum Revolutions = 6000rpm Output Signal... | |
Low cost, high specification. Short overall length. Easy installation with shaft clamp. Mounting plate available Pulses Per Revolution = 500 Encoder Technology = Incremental Maximum Revolutions = 6000rpm Output Signal... | |
Low cost, high specification Pulses Per Revolution = 10000 Encoder Technology = Incremental Maximum Revolutions = 10000rpm Output Signal Type = Push Pull Supply Voltage = 5 V dc IP... | |
Low cost, high specification Pulses Per Revolution = 1000 Encoder Technology = Incremental Maximum Revolutions = 10000rpm Output Signal Type = Push Pull Supply Voltage = 10 - 30 V... | |
Low cost, high specification Pulses Per Revolution = 100 Encoder Technology = Incremental Maximum Revolutions = 10000rpm Output Signal Type = Push Pull Supply Voltage = 10 - 30 V... | |
Low cost, high specification Pulses Per Revolution = 1024 Encoder Technology = Incremental Maximum Revolutions = 10000rpm Output Signal Type = Push Pull Shaft Type = Solid Supply Voltage =... | |
Low cost, high specification Pulses Per Revolution = 1024 Encoder Technology = Incremental Maximum Revolutions = 10000rpm Output Signal Type = Push Pull Supply Voltage = 10 - 30 V... | |
Low cost, high specification Pulses Per Revolution = 2500 Encoder Technology = Incremental Maximum Revolutions = 10000rpm Output Signal Type = Push Pull Supply Voltage = 10 - 30 V... | |
Low cost, high specification Pulses Per Revolution = 2500 Encoder Technology = Incremental Maximum Revolutions = 10000rpm Output Signal Type = Push Pull Supply Voltage = 5 V dc IP... | |
Low cost, high specification Pulses Per Revolution = 5000 Encoder Technology = Incremental Maximum Revolutions = 10000rpm Output Signal Type = Push Pull Shaft Type = Solid Supply Voltage =... | |
Low cost, high specification Pulses Per Revolution = 5000 Encoder Technology = Incremental Maximum Revolutions = 10000rpm Output Signal Type = Push Pull Supply Voltage = 5 V dc IP... | |
Low cost, high specification Pulses Per Revolution = 500 Encoder Technology = Incremental Maximum Revolutions = 10000rpm Output Signal Type = Push Pull Shaft Type = Solid Supply Voltage =... | |
Low cost, high specification Pulses Per Revolution = 500 Encoder Technology = Incremental Maximum Revolutions = 10000rpm Output Signal Type = Push Pull Supply Voltage = 5 V dc IP... | |
Low profile with high reliability 11mm encoders, suitable for automotive applications, image and sound devices. Incremental type 15000 operating cycles. Push switch variant (stock No.623-4293). 15 pulse 30 detents. Rated... | |
Low torque/High efficiency with ball bearings Pulses Per Revolution = 1000 Encoder Technology = Incremental Maximum Revolutions = 10000rpm Output Signal Type = Push Pull Shaft Type = Solid Supply... | |
Low torque/high efficiency with ball bearings Pulses Per Revolution = 1000 Encoder Technology = Incremental Maximum Revolutions = 6000rpm Output Signal Type = Push Pull Shaft Type = Solid Supply... | |
Low torque/High efficiency with ball bearings Pulses Per Revolution = 100 Encoder Technology = Incremental Maximum Revolutions = 10000rpm Output Signal Type = Push Pull Supply Voltage = 10 -... | |
Low torque/high efficiency with ball bearings Pulses Per Revolution = 100 Encoder Technology = Incremental Maximum Revolutions = 6000rpm Output Signal Type = Push Pull Shaft Type = Solid Supply... | |
Low torque/high efficiency with ball bearings Pulses Per Revolution = 1024 Encoder Technology = Incremental Maximum Revolutions = 6000rpm Output Signal Type = Push Pull Shaft Type = Hollow Supply... | |
Low torque/high efficiency with ball bearings Pulses Per Revolution = 1024 Encoder Technology = Incremental Maximum Revolutions = 6000rpm Output Signal Type = Push Pull Shaft Type = Solid Supply... | |
Low torque/high efficiency with ball bearings Pulses Per Revolution = 1024 Encoder Technology = Incremental Maximum Revolutions = 6000rpm Output Signal Type = RS422 Shaft Type = Hollow Supply Voltage... | |
Low torque/high efficiency with ball bearings Pulses Per Revolution = 5000 Encoder Technology = Incremental Maximum Revolutions = 6000rpm Output Signal Type = Push Pull Shaft Type = Hollow Supply... | |
Low torque/High efficiency with ball bearings Pulses Per Revolution = 500 Encoder Technology = Incremental Maximum Revolutions = 10000rpm Output Signal Type = Push Pull Supply Voltage = 10 -... | |
Low torque/high efficiency with ball bearings Pulses Per Revolution = 500 Encoder Technology = Incremental Maximum Revolutions = 6000rpm Output Signal Type = Push Pull Shaft Type = Solid Supply... | |
Low torque/High efficiency with ball bearings Pulses Per Revolution = 50 Encoder Technology = Incremental Maximum Revolutions = 10000rpm Output Signal Type = Push Pull Supply Voltage = 10 -... | |
Low torque/high efficiency with ball bearings Pulses Per Revolution = 50 Encoder Technology = Incremental Maximum Revolutions = 6000rpm Output Signal Type = Push Pull Shaft Type = Solid Supply... | |
Magnetic encoder range with non-contact system providing zero chatter and high reliabilty, suited for use in audio control and broadcast systems. Rated at 5Vdc +/- 5, max. current 15 mA. | |
Miniature incremental encoders for detecting angles, direction of rotation and speed measurements. Resolution up to 1024 pulses. Casing diameter: 24 mm. Radial output on 1 m cable. Spring and shoulder... | |
Miniature, hollow shaft coder with radial output via 1 metre cable. Push-pull output signal, protected against short circuits. Plastic housing with aluminium flange. Centring shoulder. Compact. Pulses Per Revolution =... | |
Omron E6C2 series incremental encoders output a pulse string according to the rotational displacement of an axis. The number of rotations can be detected by counting the number of pulses. | |
Output signal, channel A leads channel B by 60° ±30° with clockwise rotation. 15 pulse - 30 detent. Snap-in PCB and panel mountable. Horizontal and vertical mount options. Long life,... | |
Range of economic miniature encoders with radial cable connector, 1 m. Additional versions output circuit, sine, TTL and push-pull. Plastic housing with aluminium flange. Centring shoulder. Low-profile mount. Cable output. | |
Range of economic miniature hollow shaft encoders with M12 output. Excellent resistance to shock and vibration. Push-pull output signal, protection against short-circuits. Aluminium housing and flange. Compact. Pulses Per Revolution... | |
Range of economical miniature hollow-shaft encoders featuring a tightening clamp. Shaft end or through-mounting. 3-channel output. Through-shaft. Plastic housing with aluminium flange. Low-profile mount. Cable output. Pulses Per Revolution =... | |
Range of opto-electronic, compact encoders with NPN and PNP-compatible outputs. These encoders record and measure movement, lengths, angles, speeds of rotation etc. They are particularly effective when used in conjunction... | |
Recording of rpm, position, distance or speed. Sturdy industrial aluminium housing with clamping flange. High protection class according to DIN 40 050: IP65 (shaft), IP67 (cover). Very high axial and... | |
Short body length. Servo flange. Universal output circuit 4.5 to 30V supply. Push Pull complimentary, short circuit protection Pulses Per Revolution = 100 Encoder Technology = Incremental Maximum Revolutions =... | |
Short body length. Servo flange. Universal output circuit 4.5 to 30V supply. Push Pull complimentary, short circuit protection Pulses Per Revolution = 1024 Encoder Technology = Incremental Maximum Revolutions =... | |
Short body length. Servo flange. Universal output circuit 4.5 to 30V supply. Push Pull complimentary, short circuit protection Pulses Per Revolution = 2048 Encoder Technology = Incremental Maximum Revolutions =... | |
Short body length. Servo flange. Universal output circuit 4.5 to 30V supply. Push Pull complimentary, short circuit protection Pulses Per Revolution = 360 Encoder Technology = Incremental Maximum Revolutions =... | |
Short body length. Servo flange. Universal output circuit 4.5 to 30V supply. Push Pull complimentary, short circuit protection Pulses Per Revolution = 5000 Encoder Technology = Incremental Maximum Revolutions =... | |
Short-circuit and reverse polarity proof. Protection class III. Pollution degree 2. Overvoltage category II Encoder Technology = Incremental Maximum Revolutions = 10000rpm Output Signal Type = Push Pull Shaft Type... | |
Short-circuit and reverse polarity proof. Protection class III. Pollution degree 2. Overvoltage category II Pulses Per Revolution = 1000 Encoder Technology = Incremental Maximum Revolutions = 10000rpm Output Signal Type... | |
Short-circuit and reverse polarity proof. Protection class III. Pollution degree 2. Overvoltage category II Pulses Per Revolution = 5000 Encoder Technology = Incremental Maximum Revolutions = 10000rpm Output Signal Type... | |
Snap-in PCB mountable. Knurled or flatted plastic shaft types. Contacts 100 mΩ max rated at 0.5mA 5Vdc. Optional push switch rated at 10mA 5Vdc. Single LED for non switch types... | |
Standard 58mm diameter. Small mounting depth. Integral couplings, shaft reducers torque pins available Pulses Per Revolution = 100 Encoder Technology = Incremental Maximum Revolutions = 12000rpm Output Signal Type =... | |
Standard 58mm diameter. Small mounting depth. Integral couplings, shaft reducers torque pins available Pulses Per Revolution = 1024 Encoder Technology = Incremental Maximum Revolutions = 12000rpm Output Signal Type =... | |
Standard 58mm diameter. Small mounting depth. Integral couplings, shaft reducers torque pins available Pulses Per Revolution = 3600 Encoder Technology = Incremental Maximum Revolutions = 12000rpm Output Signal Type =... | |
Standard 58mm diameter. Small mounting depth. Integral couplings, shaft reducers torque pins available Pulses Per Revolution = 360 Encoder Technology = Incremental Maximum Revolutions = 12000rpm Output Signal Type =... | |
Standard 58mm diameter. Small mounting depth. Integral couplings, shaft reducers torque pins available Pulses Per Revolution = 5000 Encoder Technology = Incremental Maximum Revolutions = 12000rpm Output Signal Type =... | |
Supply voltage 5-30Vdc Pulses Per Revolution = 1000 Encoder Technology = Incremental Maximum Revolutions = 6000rpm Output Signal Type = Push Pull Shaft Type = Hollow Supply Voltage = 5... | |
Supply voltage 5-30Vdc Pulses Per Revolution = 100 Encoder Technology = Incremental Maximum Revolutions = 6000rpm Output Signal Type = Push Pull Shaft Type = Hollow Supply Voltage = 5... | |
Supply voltage 5-30Vdc Pulses Per Revolution = 1024 Encoder Technology = Incremental Maximum Revolutions = 6000rpm Output Signal Type = Push Pull Shaft Type = Hollow Supply Voltage = 5... | |
Supply voltage 5-30Vdc Pulses Per Revolution = 1024 Encoder Technology = Incremental Maximum Revolutions = 6000rpm Output Signal Type = Push Pull Shaft Type = Solid Supply Voltage = 5... | |
Supply voltage 5-30Vdc Pulses Per Revolution = 1024 Encoder Technology = Incremental Maximum Revolutions = 6000rpm Output Signal Type = TTL Shaft Type = Hollow Supply Voltage = 5 V... | |
Supply voltage 5-30Vdc Pulses Per Revolution = 360 Encoder Technology = Incremental Maximum Revolutions = 6000rpm Output Signal Type = Push Pull Shaft Type = Hollow Supply Voltage = 5... | |
Supply voltage 5-30Vdc Pulses Per Revolution = 360 Encoder Technology = Incremental Maximum Revolutions = 6000rpm Output Signal Type = Push Pull Shaft Type = Solid Supply Voltage = 5... | |
Supply voltage 5-30Vdc Pulses Per Revolution = 500 Encoder Technology = Incremental Maximum Revolutions = 6000rpm Output Signal Type = Push Pull Shaft Type = Hollow Supply Voltage = 5... | |
Supply voltage 5-30Vdc Pulses Per Revolution = 50 Encoder Technology = Incremental Maximum Revolutions = 6000rpm Output Signal Type = Push Pull Shaft Type = Solid Supply Voltage = 5... | |
Supply voltage 5-30Vdc Pulses Per Revolution = 512 Encoder Technology = Incremental Maximum Revolutions = 6000rpm Output Signal Type = TTL Shaft Type = Hollow Supply Voltage = 5 V... | |
The coder can be powered by a wide supply range of between 4.75 and 30 Vdc. Universal output stage, compatible with Totem pole, NPN or PNP and RS422 or TTL... | |
The WDG 40 A is a robust, small and cost-effective rotary transducer. It can be used wherever precise recordings of paths, positions or speeds are required. Pulses Per Revolution =... | |
Vertical mount incremental encoders for applications such as digital audio, instrumentation, etc. Pulses Per Revolution = 15 Encoder Technology = Incremental Output Signal Type = Digital Shaft Type = Slotted... | |
Vertical mount incremental encoders for applications such as digital audio, instrumentation, etc. Pulses Per Revolution = 15 Encoder Technology = Incremental Shaft Type = Slotted Supply Voltage = 5 V... | |
Very small design for tough conditions. Authorised bearing loads as for large variants. High IP65 protection rating Small electric motors. Driverless transport systems. Storage technology. Handling technology. Installation technology Pulses... | |
Wide supply voltage range: 5-24Vdc. 5Vdc operation gives RS422 compatible output. Shock proof up to 1000m/s² Pulses Per Revolution = 1024 Encoder Technology = Incremental Maximum Revolutions = 12000rpm Output... | |
Wide supply voltage range: 5-24Vdc. 5Vdc operation gives RS422 compatible output. Shock proof up to 1000m/s² Pulses Per Revolution = 360 Encoder Technology = Incremental Maximum Revolutions = 12000rpm Output... | |
Wide supply voltage range: 5-24Vdc. 5Vdc operation gives RS422 compatible output. Shock proof up to 1000m/s² Pulses Per Revolution = 500 Encoder Technology = Incremental Maximum Revolutions = 12000rpm Output... |
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