AEDA-3200-Txx Series Ultra Miniature, High Resolution IncrementalEncoders Data Sheet Description Features The AEDA-3200-T series (top mounting type) are high performance, cost effective, three-channel optical incremental encoder modules. * * * * * AEDA-3200-T series emphasize high reliability, high resolution and easy assembly, using transmissive encoder technology to sense rotary position. Outputs of the AEDA-3200 encoders are two channel quadrature outputs and a third channel gated index output. These encoder modules can be easily mounted to customer specific applications with the specially designed mechanical alignment tool. Two channel quadrature output with index Quick and easy assembly with alignment tool Cost-effective Ultra miniature size (o17mm) Resolution options from 2500 to 7500 Cycles Per Revolution (CPR), up to 30000 counts with 4X decoding * Integrated RS 422 differential linedriver Outline Drawing Theory of Operation The AEDA-3200 translates rotary motion of a shaft into a three channel digital output. The AEDA-3200 series has five key parts: a single light emitting diode (LED) light source, a photodetector IC with a set of uniquely configured photodiodes, an interpolator IC, a line driver IC and a pair of lenses. This light is used to produce internal signals A and A-, and B and B-. Output Waveforms As part of the "push-pull" detector system, these signals are fed through comparators and line driver that are part of the signal processing circuitry to produce the final outputs for channels A. The AEDA-3200 is available for cycles per revolution (CPR) of 2500 to 7500. This translates to a maximum resolution of 30000 counts after quadrature decode (4X). Definitions Direction of Motor Rotation Count (N): N refers to the cycles per revolution (CPR) of the encoder output. When the codewheel rotates in a clockwise direction, channel A will lead channel B (Figure 1 illustrates the definition of clockwise direction of codewheel rotation). When the codewheel rotates in a counter-clockwise direction, channel B will lead channel A. One Cycle (C): 360 electrical degrees (e). One Shaft Rotation: 360 mechanical degrees, N cycles (rotary motion only). Phase (): The number of electrical degrees between the center of the high state on the channel A and the center of the high state of channel B. This value is nominally 90e. Pulse Width (P): The number of the electrical degrees that an output is a high-level during one cycle, nominally 180e or 1/2 a cycle. Pulse Width Error (P): The deviation in electrical degrees of the pulse width from its ideal value of 180e. Index Pulse Width (Po): The number of electrical degrees that an index is high during one full shaft rotation. This value is nominally 90e or 1/4 cycle. State Width (S): The number of the electrical degrees between a transition in the output of the channel B. There are 4 states per cycle, each nominally 90e. State Width Error (S): The deviation in electrical degrees of each state width from its ideal value of 90e. Figure 1. Viewed from the PCB encoder end. Absolute Maximum Ratings Storage Temperature -40C to 125C Operating Temperature -40C to 125C Supply Voltage 4.5 V to 5.5 V Output Voltage -0.5 V to Vcc Output Current per Channel 20 mA Frequency 750 kHz Recommended Operating Conditions Parameter Symbol Min. Typical Max. Units Notes Temperature TA -40 25 125 C Supply Voltage VCC 4.5 5.0 5.5 Volts Ripple <100 mVp-p Frequency f 125 750 kHz f = RPM x CPR 60 Maximum Frequency and RPM CPR Maximum Frequency (kHz) Maximum RPM2 2500 750 1 12000 5000 750 9000 6000 750 7500 7200 750 6250 7500 750 6000 Note: 1. Maximum frequency will be lower due to limitation in maximum RPM. 2. Maximum mechanical limit is 12000 RPM, operating limit is dependent on the maximum operating frequency. Electrical Characteristics Electrical characteristics over recommended operating conditions. Typical values at 25oC. Parameter Symbol Supply Current Min. Typical Max. Units ICC 55 80 mA High level Output Voltage VOH 3.4 V Low level Output Voltage VOL 0.3 V 2.5 0.5 Encoding Characteristics Encoding characteristics over recommended operating conditions. Typical values at 25oC. Parameter Symbol Typical Max. Units Pulse Width Error P 5 85 e State Width Error S 5 60 e Phase Error 1 40 e Mechanical Characteristics (Refer to page 2 for details.) Parameter Dimension/Details Tolerance Standard Shaft Diameters 2 mm diameter maximum * -.002/-.007 (-.0001/-.0003) mm (in) Mounting Screw Size: M2.5 x 0.45 (Recommended Length 6 mm) * Note: 1. Using a step shaft, maximum shaft diameter is 4 mm. Units mm Pin Assignments Pin Signal Description Pin 1 A+ Digital Output Pin 2A- Digital Output Pin 3 Gnd Ground Pin Pin 4 Gnd Ground Pin Pin 5 B+ Digital Output Pin 6 B- Digital Output Pin 7 Vcc Input Voltage Pin 8 Vcc Input Voltage Pin 9 I+ Digital Output Pin 10 I- Digital Output Notes: 1. Both Pin 7 and Pin 8 must be connected to Vcc. 2. Either Pin 3 or Pin 4 must be connected to Gnd. Mating Connector Alignment Considerations AEDA-3200 requires a 5 x 2 (1.27mm x 1.27mm) female IDC Connector. An example of the suggested mating connectors is Samtec (www.samtec.com) part number: FFSD-05-D-x-01-N. The cable used is 0.635mm pitch flat ribbon cable. The mechanical alignment tool is intended to absorb normal installation misalignment and runouts. To achieve the optimum performance, user should minimize misalignment. Electrical Interface Avago recommends National Semiconductor DS26C32AM Quad Differential Line Receiver or compatible as line receiver. Unused pin should be grounded for noise reduction. Complete instructions for AEDA-3200 installation can be found in Application Note 5080, Avago AEDA-3200-T Mechanical Mounting and Installation Consideration. AEDA-3200 Mechanical Alignment tool part number is HEDS-8940. HEDS-8940 Mechanical Alignment Tool. Ordering Information AEDA-3200- T Resolution Options (CPR) AJ 2,500 B1 5,000 B7 6,000 BJ 7,200 BK 7,500 Alignment Tool Remark HEDS-8940 Mechanical Alignment Tool Counts After 4x Decoding 10,000 20,000 24,000 28,800 30,000 For product information and a complete list of distributors, please go to our web site: www.avagotech.com Avago, Avago Technologies, and the A logo are trademarks of Avago Technologies, Limited in the United States and other countries. Data subject to change. Copyright (c) 2006 Avago Technologies, Limited. All rights reserved. Obsoletes AV01-0175EN AV01-0619EN - November 1, 2006