OPTO-26 User`s Manual
Contents
1. OPTO 26 User s Manual Page 1 Introduction The OPTO26 product is an opto coupled interface intended specifically for use with the J201 connector on the HS 1 and HS 20 Indexer products It provides optical isolation of inputs to the Indexer to provide necessary noise immunity for any control applications This product also provides a transition from the 26 pin ribbon cable to screw terminal connections which are generally preferred in industrial applications This product provides isolation only for the inputs to the HS 1 HS 20 product The outputs of the HS 1 and HS 20 are unaffected by this product Generally these outputs drive opto coupled devices such as opto coupled inputs of motor drives opto based solid state relays SSRs The schematic and component layout pictorial of this product is included in this manual Also several application notes describing the wiring connections for typical devices that you might be using are shown If you are using components which you feel are not covered by the drawings we are happy to provide our advice on the best way to hook up your system Also we have provided some wiring tips which will help lead to successful operation of your machine General System Wiring Practice When you install a control system to support an industrial application you must consider the possibility of electrical noise interference with proper operation Some signals are susceptible to noise and some signals are producer2. ground includes any single transistor darlington pair or phototransistor arrangement capable of sinking 3 5 mA of current at 1 5 Volts saturated or less When this type of switch is in the on state it may have a voltage of 0 4 to 0 8 volts unless it is a darlington type in which case it may have a saturation voltage of 1 1 to 1 5 volts When this switch is on it is realtively immune to noise but when it is off it floats like type 1 Type 3 TTL totem pole outputs are completely compatible sources of input and behave like type 2 inputs If any TTL inputs are used in your system and if you use a user isolated power supply ensure that the user isolated power supply is 5 volts regulated When this input type is in the low state it will have a voltage below 8 volts and when it is in the high state it will have a voltage of 2 4 to 5 volts It is relatively immune to noise in both states however be sure that no voltage higher than 5 volts ever drives the line Some opto interruptors are available in totem pole output configuration Type4 To achieve a characteristic similar to type 3 when using an electro mechanical switch you can wire a SPDT switch as shown When the switch is in the low state it is identical to type 1 but when it is in the high state the input is clamped to the 5 volts which makes this configuration relatively immune to noise in both states User Isolated Power Supply Provision As shipped the OPTO26 product uses resis
3. h Input Level Page 4 Input Voltage Specifications using 5 Volt supply at pin 23 0 0 Volts Working Minimum Low Input Voltage 1 5 Volts Maximum Low Input Voltage 5 0 Volts Recommended High Input Voltage Input Voltage Limits 12 Volts Absolute Maximum 12 Volts Absolute Minimum Input Signal Delay 20 to 40 micro seconds OPTO26 Pinout Specification for J2 J3 Terminal Strips Output pins are not listed and straight through from J201 of the HS 1 and J1 on the OPTO26 Pin Name Function 9 Ground HS 1 referenced with R101 installed 11 CW Limit 0 Clockwise limit for motor 0 12 CCW Limit 0 Counter clockwise limit for motor 0 13 Index 0 Index Mark input for motor 0 14 CW Limit 1 Clockwise limit for motor 1 15 CCW Limit 1 Counter clockwise limit for motor 1 16 Index 1 Index Mark input for motor 1 17 CW Limit 2 Clockwise limit for motor 2 18 CCW Limit 2 Counter clockwise limit for motor 2 19 Index 2 Index Mark input for motor 2 20 CW Limit 3 Clockwise limit for motor 3 21 CCW Limit 3 Counter clockwise limit for motor 3 22 Index 3 Index Mark input for motor 3 23 5 V Source HS 1 sourced with R102 installed Page 5
4. interfaces in common use For example IMS uses a sourced opto coupled input and API uses a sink type opto coupled input Figure shows the wiring for a sourced interface type driver and Figure 2 shows the wiring for a sinking interface type driver Page 2 Some drivers may not employ opto couplers but simply accept straight TTL type signals The HS 1 and HS 20 Indexers can drive this type of drive too however some noise immunity is sacrificed If you are using this type of driver interface you must take even greater care to make sure that no electrical noise from the driver module causes interference with the Indexer Do not permit a voltage greater than 5 volts to be used with the outputs of the HS 1 or HS 20 even through the LED side of an opto coupled type interface The leads which run from the OPTO 26 to the motor module inputs can be a small gauge wire 22 28 gauge since only very low voltage and low current are used Inputs The inputs of the OPTO 26 is actually current driven Current flows into the anode side of the Opto s LED section and out the cathode back to the power supply serving as a current source It is assumed that the input signal is generated by a switch open or a switch closure connected between the input and ground When this input switch is in the open state no current flows If you were to measure the voltage at the input with the switch open you would measure 4 5 to 5 volts which is the voltage of the power s
5. s of noise Output signals which connect from the indexer module to the step motor driver module are generally low electrical noise producers and are not highly susceptible to noise The wires from a motor power driver to the motor are noise producers and it is best if you can use dual twisted pair shielded cable for this connection See figure 3 The input signals which are normally used for limit and home sensor functions are highly susceptible to noise Again twisted pair shielded wire should be used for this connection to keep noise out If you decide to run both the motor driver wires and the input sensor wires inside the same cable you are asking for a challenge It can generally be done but it will require more strict technique and possibly some filtering of the inputs The motor drive cables switch polarity of the current each step producing an alternating field around the wire This along with the input wires running alongside for 10 feet can form an effective transformer which you don t want For a shield to be effective it should not be used as a current carrying ground return path Description of the OPTO26 Outputs Outputs are fed straight through from J201 on the Indexer The specifications of these signals are listed here even though they are defined and generated on the Indexer product its self The indexer is capable of sourcing or sinking current through an opto coupled type interface There are several types of opto coupled
6. tor capacitor isolation of the HS 1 power supply provided by R101 and R202 and C101 The voltage available between pins 23 and pin 9 comes from the HS 1 Many applications may not require full isolation from the HS 1 and HS 20 power supply But if the user wishes to totally isolate the inputs a separate power user isolated power supply can be used To gain total electrical isolation there must be no electrical connection between the external switches or proximity sensors and the HS 1 or HS 20 controller product This implies that the external devices may not draw their power from nor reference connect to the indexer ground pin 9 or the indexer 5 Volt supply pin 23 In order to achieve total electrical isolation from the indexer and its input signals resistors R101 and R102 must be removed from the OPTO26 board An external power source must then be connected between pins 23 and 9 of the OPTO26 terminal strip J2 This user supply may be between 5 volts and 12 volts providing the voltage does not violate the voltage specifications of any other component attached to the system Under certain circumstances a voltage as high as 24 volts may be used but this would require a version of the OPTO 26 with minor component changes which can be made available for an OEM application Electrical Specifications for OPTO26 Inputs Input Current Sinking Specifications 3 5 mA Minimum to Guarantee Low Input 1 7 mA Maximum Sinking Leakage Allowable for Hig
7. upply serving as the current source But keep in mind that the significant aspect is that no current is flowing One negative characteristic of some types of electronic switch in the off state is that there can be some leakage current This leakage current must be under 2 ma which is generally not a problem When an input switch is closed current does flow If you were to measure the voltage at the input with your switch closed you might measure 0 volts or 8 volts or 1 2 volts depending on the type of electronic or mechanical switch you are using Some device outputs employ an electronic circuit which even when closed has over 1 volt across it The OPTO 26 has been designed to permit such a switch to be used even if its on voltage is as high as 1 5 volts Page 3 For the purposes of illustration the input switches are divided into 4 categories as listed below See Figure 4 at the end of this manual Type 1 Mechanical switch closure to ground Type 2 Open collector switch to ground Type 3 TTL totem pole outputs Type 4 SPDT Mechanical Switch Type 1 Mechanical switch closure to ground assures current flow with characteristicvoltage of very near 0 volts and no current flow a high input when the switch is open When the switch is in the closed position it is relatively immune to noise but when it is in the open position the input wire is left floating and is susceptible to noise Type 2 Electronic open collector switch to
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