Advantech APAX-5013 User Manual
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Advantech APAX-5013 User Manual

Apax-5000 series
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  • Page 1 User Manual APAX-5000 Series I/O Modules...
  • Page 2 No part of this manual may be reproduced, copied, translated or transmitted in any form or by any means without the prior written permission of Advantech Co., Ltd. Information provided in this manual is intended to be accurate and reliable. How- ever, Advantech Co., Ltd.
  • Page 3 This product has passed the CE test for environmental specifications when shielded cables are used for external wiring. We recommend the use of shielded cables. This kind of cable is available from Advantech. Please contact your local supplier for ordering information.
  • Page 4 The sound pressure level at the operator's position according to IEC 704-1:1982 is no more than 70 dB (A). DISCLAIMER: This set of instructions is given according to IEC 704-1. Advantech disclaims all responsibility for the accuracy of any statements contained herein.

  • Page 5: Table Of Contents

    ..25 Analog Input Modules ................26 2.1.1 APAX-5013 8-ch RTD Module ............ 26 Figure 2.1 APAX-5013 Module Front View........ 26 Figure 2.2 Wiring for APAX-5013 ..........27 2.1.2 APAX-5017 12-ch Analog Input Module ........28 Figure 2.3 APAX-5017 Module Front View........ 28 Figure 2.4 Wiring for APAX-5017 ..........
  • Page 6 Figure 3.9 APAX-5046SO Module Front View ......51 Figure 3.10Wiring for APAX-5046SO ......... 51 Relay Output Modules ................53 3.2.1 APAX-5060 12-ch Relay Output Module ........53 Figure 3.11APAX-5060 Module Frontal View......53 Figure 3.12Wiring for APAX-5060 ..........54 3.2.2 APAX-5060PE 12-ch Relay Output Module for P&E Applications..
  • Page 7 Enable, Rising Edge, Retriggerable ......93 Figure 3.50Pulse/DIR, With Reload, Count Once, DI Gate Enable, Falling Edge, Not Retriggerable ....... 94 Figure 3.51Pulse/DIR , With Reload , Count Repetitively, DI Gate Enable, Falling Edge, Not Retriggerable ....95 Figure 3.52Pulse/DIR, With Reload, Count Once, DI Gate Enable, Falling Edge, Retriggerable ........
  • Page 8 APAX-5000 I/O Series User Manual viii...

  • Page 9: Chapter 1 Overview

    Chapter Overview...

  • Page 10: Introduction

    Introduction This manual will discuss the specifications, functions and application wiring of the APAX-5000 series of I/O modules. Advantech provides different APAX-5000 I/O mod- ules for various applications. The following table outlines Advantech's supported I/O modules. Table 1.1: Supported I/O Module List...

  • Page 11: I/O Wiring

    I/O Wiring APAX-5000 I/O modules leverage detachable clamp type terminal blocks. Comparing with traditional screw type terminal blocks, clamp type terminal blocks can save up to 75% wiring time and provide better reliability for shock and vibration. Follow the pro- cedures below for wiring your APAX-5000 I/O module.

  • Page 12: Removing The I/O Terminal

    Removing the I/O Terminal APAX-5000 I/O modules provide detachable terminal blocks that are convenient when wiring needs to be changed, because the terminal block can removed and the module doesn't need to be. Refer to the figures below to remove the terminal block. Warning! APAX-5000 I/O modules can be categorized into four categories: AI, AO, DI and DO.

  • Page 13: Labeling The Terminal

    Labeling the Terminal Advantech provides write-on labels for each APAX-5000 I/O module. This write-on label has two sides, one with the model name, specifications and a wiring diagram, while the other side allows users to write information in by themselves. Refer to the figures below for the write-on label details.

  • Page 14: Jumper Settings

    Jumper Settings Some I/O modules need to be configured manually through the onboard jumpers. This section will show you how to adjust the jumper settings. Pull out the write-on label and you can see the location of the jumper. You can use the screw driver to adjust the jumper setting. Once the jumper setting is done, slide the write-on label back to its position.

  • Page 15: Id Switch Setting

    ID Switch Setting The controller identifies each APAX-5000 I/O module through the ID number. There- fore, you need to set ID number for each I/O module by the rotary ID switch on the front side. Rotate that ID switch and point the hole on the central axis to correspond- ing ID number ("0"...
  • Page 16 From the figures above, you can choose ID number 0 ~ 15 from the rotary ID switch ("0" ~ "F"). Therefore, the maximum number for analog module in one system is 16. For digital modules, there is another ID switch on the PCB that it can double the available ID number.
  • Page 17 DIP Switch Setting LED Color 16 ~ 31 according to the rotary ID swich Orange 0 ~ 15 according to the rotary ID swich Green Warning! Avoid two modules with the same ID number in the same system, or you cannot see the module in the software utility.

  • Page 18: Mechanical Assembly And Power Connection

    Mechanical Assembly and Power Connection 1.7.1 Wiring Power Input to the Backplane There are two ways that APAX-5000 I/O mdoules can be powered. One is to connect the DC power supply wire directly to the power connector on the backplane. Another way is using APAX-5343E power supply module.
  • Page 19 Lock that APAX-5000 I/O module to the APAX-5002 backplane by pulling down the module locks. Insert another APAX-5000 I/O module on the same APAX-5002 backplane. Use tongue-and-groove slots to move the module. Lock that APAX-5000 I/O module to the APAX-5002 backplane by pulling down the module locks.
  • Page 20 If you need more than one APAX-5000 I/O module, stack another APAX-5002 backplane to the original APAX-5002 backplane. Warning! When you assembly different backplanes together, remember to turn off the power connected to the backplane. If not, the backplanes may be damaged.
  • Page 21 Insert another APAX-5000 I/O module on the second APAX-5002 backplane. Lock that APAX-5000 I/O module to the second APAX-5002 backplane by pull down the module locks, similar as step 5. If needed, repeat step 8 ~ 9 to have another APAX-5000 I/O module on the same APAX-5002 backplane.

  • Page 22: Using The Apax-5343E Power Supply Module

    1.7.2 Using the APAX-5343E Power Supply Module APAX-5000 I/O modules can also be powered by the APAX-5343E power supply module, connected to the left side of the whole system. The power can be transferred to APAX-5000 I/O modules though the backplanes. Note! Refer to Chapter 5 for APAX-5343E specifications.
  • Page 23 APAX-5000 I/O Series User Manual...
  • Page 24 Stack the backplane of APAX-5343E to the left side of the first APAX-5002 back- plane in the system. Lock the stacked APAX-5343E backplane with the APAX-5002 backplane by the backplane locks on the APAX-5002 backplane. Insert the upper case of APAX-5343E back to its backplane. Use tongue-and- groove slots to move the upper case.

  • Page 25: Decommission And Disposal

    Lock the upper case of APAX-5343E to its backplane by pulling down the mod- ule locks on the upper case. Connect AC power code to the power connectors on the upper case of APAX-5343E. Then the whole system is powered-on. Decommission and Disposal APAX-5000 I/O modules support hot-swap functionality.

  • Page 26: Mounting

    Detach APAX-5000 I/O module from the backplane. Repeat Step 1 ~ Step 2 for all the APAX-5000 I/O modules you want to remove. It is the similar when you insert APAX-5000 I/O modules back to the backplane. First, insert APAX-5000 I/O module to backplane. Then, pull down the two module locks to lock on the backplane, and APAX-5000 I/O module will be power-on and can be used.
  • Page 27 Attach the APAX-5002 backplane on the DIN rail. Repeat Step 1 ~ Step 2 until necessary APAX-5002 backplanes are all attached on the DIN rail. Note! When the total number of APAX-5520 and APAX-5000 I/O modules is odd, you can use APAX-5001 (1-slot backplane) as the last backplane in the system.

  • Page 28: Wall (Panel) Mounting

    1.9.2 Wall (Panel) Mounting Mount the APAX-5000 I/O module to a wall (panel) through backplane using two screws per module. Use M4 or #8 panhead screws. Refer to figure below for the dimensional template: Below are the procedures for the wall (panel) mounting: Pull down the DIN-rail lock at the back of the first APAX-5002 backplane.
  • Page 29 Hang the APAX-5002 backplane onto the screw on the wall (panel). The screw for APAX-5002 to hang should be special-designed. We have provided it in accessory. (Diameter: 9 mm, length: 16 mm, height of head: 2.7 mm) Mount the first APAX-5002 backplane to the wall (panel) using two standard M4 or #8 panhead screws.
  • Page 30 Stack Another APAX-5002 backplane to original backplane. Lock the two back- planes together. Mount the second APAX-5002 backplane to the wall (panel) using two standard M4 or #8 panhead screws. APAX-5000 I/O Series User Manual...
  • Page 31 Repeat Step 4 ~ Step 5 until all necessary APAX-5002 backplane are screwed on the wall (panel). Note! When the total number of APAX-5000 I/O modules is odd, you can use APAX-5001 (1-slot backplane) as the last backplane in the system. The procedure to attach APAX-5001 on the wall is similar as APAX-5002.
  • Page 32 We suggest remaining enough clearance space from enclosure walls and adjacent equipments. Allow 50 mm (2 in.) of space on all sides, as shown below. This provide ventilation and makes assembly more easily. APAX-5000 I/O Series User Manual...

  • Page 33: Chapter 2 Analog Input/Output Modules

    Chapter Analog Input/Output Modules...

  • Page 34: Analog Input Modules

    2.1.1 APAX-5013 8-ch RTD Module The APAX-5013 is a 16-bit, 8-channel RTD input module that features programmable input ranges on all channels. This module is an extremely cost-effective solution for industrial mea- surement and monitoring applications. Its opto-isolated inputs provide 2,500 VDC of isolation between the analog input and the module, protecting the module and peripherals from dam- age due to high input line voltage.

  • Page 35: Figure 2.2 Wiring For Apax-5013

    Application Wiring Figure 2.2 Wiring for APAX-5013 APAX-5013 Technical Specifications Channels: 8  Input Impedance: >10 M  Input Type: Pt-100, Pt-200, Pt-500, Pt-1000, Balco, Ni 518 RTD (2-wire and 3-wire)  Temperature Range: Pt-100,Pt-200,Pt-500,Pt-1000: -120~130C, -200~850C Supports IEC 60751 ITS90 (0.03851// C) and JIS C 1604 (0.03916 // C) –...

  • Page 36: Apax-5017 12-Ch Analog Input Module

    2.1.2 APAX-5017 12-ch Analog Input Module The APAX-5017 is a 16-bit, 12-channel analog differential input module that provides programmable input ranges on all channels, and different channels can be configured using different ranges. It accepts voltage and current inputs. Adjust the switch (refer to Section 1.5) to define each channel as voltage or current input.
  • Page 37 Note! To keep measurement accuracy please short the channels that are not in use. Note! You can use the jumpers to configure each analog input channel type (voltage or current). Refer to Section 1.5 for the location of the jumpers. There are a total of 12 jumpers and each is specific for one channel.

  • Page 38: Apax-5017H 12-Ch High Speed Analog Input Module

    Protection  Isolation: 2,500 VDC (Between channels and backplane bus)  Over Voltage Protection: ±35 VDC Environment  Operating Temperature: -10 ~ 60 C (when mounted vertically)  Storage Temperature: -40 ~ 70 C  Relative Humidity: 5 ~ 95% (non-condensing) General ...

  • Page 39: Figure 2.6 Wiring For Apax-5017H

    Application Wiring Figure 2.6 Wiring for APAX-5017H Note! You can use the jumpers to configure each analog input channel type (voltage or current). Refer to Section 1.5 for the location of the jumpers. There are a total of 12 jumpers and each is specific for one channel. APAX-5017H Specifications ...

  • Page 40: Apax-5018 12-Ch Thermocouple Input Module

    General  Dimensions (W x H x D): 30 x 139 x 100 mm  Weight: 175 g  Power Consumption: 3.5 W @ 24 VDC (typical) Warning! There is no built-in filter on APAX-5017H module, so it is not very suit- able to use it in a very noisy environment.

  • Page 41: Figure 2.8 Wiring For Apax-5018

    Application Wiring Figure 2.8 Wiring for APAX-5018 Note! You can use the jumpers to configure each analog input channel type (voltage/thermocouple or current). Refer to Section 1.5 for the location of the jumpers. There are a total of 12 jumpers and each is specific for one channel.
  • Page 42 Note! This accuracy information only relates to the operating error, not includ- ing cold connection CJC error. The CJC error can be eliminated by per- forming CJC compensation.  Configure Different Range for Each Channel: Yes  Resolution: Voltage Range Resolution ±50 mV 16 bit...
  • Page 43 Environment  Operating Temperature: -10 ~ 60 C (when mounted vertically)  Storage Temperature: -40 ~ 70 C  Relative Humidity: 5 ~ 95% (non-condensing) General  Dimensions (W x H x D): 30 x 139 x 100 mm  Weight: 170 g ...

  • Page 44: Apax-5017Pe 12-Ch Analog Input Module For P&E Applications

    2.1.5 APAX-5017PE 12-ch Analog Input Module for P&E Applications The APAX-5017PE is a 16-bit, 12-channel analog differential input module that provides programmable input ranges on all channels, and different channels can be configured using different ranges. It accepts voltage and current inputs. You can use software (APAX utility) to configure range type for each channel.
  • Page 45 Note! To keep measurement accuracy please short the channels that are not in use. Technical Specifications of APAX-5017PE  Channels: 12 (Differential)  Input Impedance: >10 M (Voltage)  Input Type: V, mV, mA (for current mode, 120 resistors is required to be connected in parallel) ...
  • Page 46 Environment  Operating Temperature: -20 ~ 70C (when mounted vertically)  Storage Temperature: -40 ~ 85C  Relative Humidity: 5 ~ 95% (non-condensing) General  Dimensions (W x H x D): 30 x 139 x 100 mm  Weight: 170 g ...

  • Page 47: Analog Output Modules

    Analog Output Modules 2.2.1 APAX-5028 8-ch Analog Output Module The APAX-5028 is a 8-channel analog output module. It uses the D/A converter con- trolled by the system module to convert the digital data into output signals. You can specify slew rates and start up currents through the configuration software. For each channel, voltage and current can be used by connecting to different terminal.

  • Page 48: Apax-5028 Specifications

    Application Wiring Figure 2.12 Wiring for APAX-5028 Note! The common terminals are physically connected together and to the backplane power supply ground. 2.2.2 APAX-5028 Specifications  Channels: 8  Output Type: V, mA  Output Range: ±2.5 V, ±5 V, ±10 V, 0~2.5 V, 0~5 V, 0~10 V, 0~20 mA, 4~20 mA ...

  • Page 49: Digital Input/Output Modules

    Chapter Digital Input/Output Modules...

  • Page 50: Digital Input/Output Modules

    Digital Input/Output Modules 3.1.1 APAX-5040 24-ch Digital Input Module The APAX-5040 features 24 digital input (sink/source) channels. The APAX-5040 module's digital input channels can accept a 2-wiring input from a DC voltage source, to determine the state of limits, standard switches or proximity switches. The digital input channels offer LED to indicate digital status.
  • Page 51 APAX-5040 Specifications Digital Input  Channels: 24  Points per Common: 12  Type: Sink/Source (Wet Contact)  Input Voltage Rated Value: 24 VDC – For "0" signal: -5 ~ 5 VDC – For "1" signal: 15 ~ 30 VDC and -15 ~ -30 VDC ...

  • Page 52: Apax-5045 24-Ch Digital Input/Output Module

    3.1.2 APAX-5045 24-ch Digital Input/Output Module The APAX-5045 features 12 digital input (sink/source) and 12 digital output (sink) channels. The APAX-5045 module's digital input channels can accept a 2-wiring input from a DC voltage source, to determine the state of limits, standard switches or proximity switches.

  • Page 53: Figure 3.4 Wiring For Apax-5045

    Application Wiring Figure 3.4 Wiring for APAX-5045 Warning! When you connect DO channel with inductive load, we suggest adding one diode in the circuit to protect the APAX-5045 module. (Refer to fig- ure below) APAX-5045 Specifications Digital Input  Channels: 12 ...
  • Page 54 Digital Output  Channels: 12  Type: Sink  Voltage Range: 8 ~ 35 VDC  Rated Output Current at signal "1": 0.5 A (per channel)  Permitted Output Current (at signal "1"): max. 0.75 A  Output Current at signal "0" (leakage current): 0.1 mA ...

  • Page 55: Apax-5046 24-Ch Digital Output Module

    3.1.3 APAX-5046 24-ch Digital Output Module The APAX-5046 features 24 digital output (sink) channels. The digital output chan- nels offer short-circuit protection and LED to indicate digital status. The module pro- vides 2500 VDC optical isolation between channels and backplane bus. If any high voltage or current damage the channels, the whole system (backplanes, other mod- ules, and control unit) won't be affected because it is already isolated.
  • Page 56 APAX-5046 Specifications Digital Output  Channels: 24  Type: Sink  Voltage Range: 8 ~ 35 VDC  Rated Output Current at signal "1": 0.5 A (per channel)  Permitted Output Current (at signal "1"): max. 0.75 A  Output Current at signal "0" (leakage current): 0.1 mA ...

  • Page 57: Apax-5040Pe 24-Ch Digital Input Module For P&E Applications

    3.1.4 APAX-5040PE 24-ch Digital Input Module for P&E Applications The APAX-5040PE features 24 digital input (sink/source) channels. The APAX- 5040PE module's digital input channels can accept a 2-wiring input from a DC volt- age source, to determine the state of limits, standard switches or proximity switches. The digital input channels offer LED to indicate digital status.

  • Page 58: Figure 3.8 Wiring For Apax-5040Pe

    Application Wiring Figure 3.8 Wiring for APAX-5040PE APAX-5040 Specifications Digital Input  Channels: 24  Points per Common: 12  Type: Sink/Source (Wet Contact)  Input Voltage Rated Value: 24 VDC – For "0" signal: -5 ~ 5 VDC – For "1"...

  • Page 59: Apax-5046So 20-Ch Digital Output Module

    3.1.5 APAX-5046SO 20-ch Digital Output Module The APAX-5046SO features 20 digital output (source) channels. The digital output channels offer short-circuit protection and LED to indicate digital status. The module provides 2500 VDC optical isolation between channels and backplane bus. If any high voltage or current damage the channels, the whole system (backplanes, other modules, and control unit) won't be affected because it is already isolated.
  • Page 60 APAX-5046SO Specifications Digital Output  Channels: 20  Type: Source  Voltage Range: 10 ~ 35 V  Rated Output Current at signal “1”: 1A (per channel)  Permitted Output Current (at signal “1”): max. 1.2A  Output Current at signal “0” (leakage current): 0.1 mA ...

  • Page 61: Apax-5060 12-Ch Relay Output Module

    Relay Output Modules 3.2.1 APAX-5060 12-ch Relay Output Module The APAX-5060 relay output module provides 12 relay channels of Form A. Switches can be used to control the relays. The digital output channels offer short-circuit protec- tion and LED to indicate digital status. The module provides 2500 VDC optical isolation between channels and backplane bus.

  • Page 62: Figure 3.12Wiring For Apax-5060

    Application Wiring Figure 3.12 Wiring for APAX-5060 Warning! When you connect DO channel with inductive load, we suggest adding one diode in the circuit to protect the APAX-5060 module. (Refer to fig- ure below) APAX-5000 I/O Series User Manual...
  • Page 63 APAX-5060 Specifications Relay Output  Channels: 12  Relay Type: Form A (SPST)  Switching Capacity and Lifetime of the Contact (For Resistive Load) – VDE: 30,000 operations (5 A @ 250 VAC, 10 operations/minute at 8 C) 70,000 operations (5 A @ 30 VDC, 10 operations/ minute at 85 C) –...

  • Page 64: Figure 3.13Apax-5060Pe Module Frontal View

    3.2.2 APAX-5060PE 12-ch Relay Output Module for P&E Applications The APAX-5060PE relay output module provides 12 relay channels of Form A. Switches can be used to control the relays. The digital output channels offer short-circuit protec- tion and LED to indicate digital status.This module is an IEC-61850-3 compliant I/O modules, and suitable for power and energy related application.
  • Page 65 Warning! When you connect DO channel with inductive load, we suggest adding one diode in the circuit to protect the APAX-5060PE module. (Refer to figure below) APAX-5060PE Specifications Relay Output  Channels: 12  Relay Type: Form A (SPST)  Switching Capacity and Lifetime of the Contact (For Resistive Load) –...
  • Page 66  Dimensions (W x H x D): 30 x 139 x 100 mm  Weight: 195 g  Power Consumption: 2 W @ 24 VDC (typical)  Status Display: LED per channel – On: Logic level “1” – Off: Logic level “0” APAX-5000 I/O Series User Manual...

  • Page 67: Apax-5080 Counter/Frequency And Dio Module

    Counter Modules 3.3.1 APAX-5080 Counter/Frequency and DIO Module The APAX-5080 features counter/frequency and DIO functions. For the digital input function, the APAX-5080 supports 4 isolated digital input and Gate function. For digi- tal output function, the APAX-5080 supports 4 general isolated digital output and spe- cific alarm function with counter.

  • Page 68: Figure 3.16Wiring For Apax-5080

    Application Wiring Figure 3.16 Wiring for APAX-5080 Warning! Please use different power supply modules for digital channels and sys- tem to ensure isolation effect. APAX-5000 I/O Series User Manual...
  • Page 69 APAX-5080 Function Block APAX-5000 I/O Series User Manual...
  • Page 70 APAX-5080 Specifications Digital Input  Channels: 4  Input Voltage – For “0” Signal: 0 ~ 3 VDC – For “1” Signal: 10 ~ 30 VDC  Input Current: 5~15 mA (For Signal “1”, typical)  Minimum Pulse Width: 500 ns (Max. Input Frequency) Digital Output ...
  • Page 71 General  Dimensions (W x H x D): 30 x 139 x 100 mm  Weight: 165 g  Power Consumption: 2.5 W @ 24 VDC (typical)  Status Display: LED per channel – On: Logic level “1” – Off: Logic level “0” APAX-5080 Counter Mode No Gate No Alarm There are so many counter modes in APAX-5080 and below will use counter0 as an example to explain every counter mode operation principle.

  • Page 72: Figure 3.17Pulse/Dir, No Reload, Count Once

    Ch0_A Ch0_B Down Counter0 Enable Counter0 ……… 0x33 0x32 0x31 0x32 0x33 0x34 0xF..F 0x00 Value Counter 0 Overflow Figure 3.17 Pulse/DIR, No Reload, Count Once Pulse/DIR, With Reload, Count Once Figure 3.4 shows pulse/direction mode, Ch0_A provides the counting function, one pulse, one count.

  • Page 73: Figure 3.19Pulse/Dir, With Reload, Count Repetitively

    Pulse/DIR, With Reload, Count Repetitively Figure 3.5 shows pulse/direction mode, Ch0_A provides the counting function, one pulse, one count. Ch0_B provides the clockwise and counter clockwise function. When the counter0 is enabled, the couner0 starts to count. If the counter value is overflow or underflow, it will reset to the defined value (e.g.

  • Page 74: Figure 3.20Up/Down, No Reload, Count Once

    Up/Down, No Reload, Count Once Figure 3.6 shows up/down mode, Ch0_A provides the counting up function, one pulse, one up count. Ch0_B provides the counting down function, one pulse, one down count. When the counter0 is enabled, the couner0 starts to count. If the counter value is overflow or underflow, it will show the minimum (0x00) or maximum (0xFFFFFFFF) value and not count continuously.

  • Page 75: Figure 3.21Up/Down, With Reload, Count Once

    Up/Down, With Reload, Count Once Figure 3.7 shows up/down mode, Ch0_A provides the counting up function, one pulse, one up count. Ch0_B provides the counting down function, one pulse, one down count. When the counter0 is enabled, the couner0 starts to count. If the counter value is overflow or underflow, it will reset to the defined value (e.g.

  • Page 76: Figure 3.22Up/Down, With Reload, Count Once

    Up/Down, With Reload, Count Repetitively Figure 3.8 shows up/down mode, Ch0_A provides the counting up function, one pulse, one up count. Ch0_B provides the counting down function, one pulse, one down count. When the counter0 is enabled, the couner0 starts to count. If the counter value is overflow or underflow, it will reset to the defined value (e.g.

  • Page 77: Figure 3.23Up, No Reload, Count Once

    Up, No Reload, Count Once Figure 3.9 shows counter up mode, Ch0_A provides the counting up function, one pulse, one up count. When the counter0 is enabled, the couner0 starts to count. If the counter value is overflow or underflow, it will show the minimum (0x00) or maximum (0xFFFFFFFF) value and not count continuously.

  • Page 78: Figure 3.25Up, With Reload, Count Repetitively

    Up, With Reload, Count Repetitively Figure 3.11 shows up/down mode, Ch0_A provides the counting up function, one pulse, one up count. Ch0_B provides the counting down function, one pulse, one down count. When the counter0 is enabled, the couner0 starts to count. If the counter value is overflow or underflow, it will reset to the defined value (e.g.

  • Page 79: Figure 3.27A/B Phase 1X, No Reload, Count Once

    A/B Phase 1X, No Reload, Count Once Figure 3.13 shows A/B Phase 1X mode, Ch0_A and Ch0_B provide the counting function. When the counter0 is enabled, the couner0 starts to count. If the counter value is overflow or underflow, it will show the minimum (0x00) or maximum (0xFFFFFFFF) value and not count continuously.

  • Page 80: Figure 3.28A/B Phase 1X, With Reload, Count Once

    A/B Phase 1X, With Reload, Count Once Figure 3.14 shows A/B Phase 1X mode, Ch0_A and Ch0_B provide the counting function. When the counter0 is enabled, the couner0 starts to count. If the counter value is overflow or underflow, it will reset to the defined value (e.g. 0x33) but won’t keep counting.

  • Page 81: Figure 3.29A/B Phase 1X, With Reload, Count Repetitively

    A/B Phase 1X, With Reload, Count Repetitively Figure 3.15 shows A/B Phase 1X mode, Ch0_A and Ch0_B provide the counting function. When the counter0 is enabled, the couner0 starts to count. If the counter value is overflow or underflow, it will reset to the defined value (e.g. 0x33) and keep counting repetitively.

  • Page 82: Figure 3.30A/B Phase 2X, No Reload, Count Once

    A/B Phase 2X, No Reload, Count Once Figure 3.16 shows A/B Phase 2X mode, Ch0_A and Ch0_B provide the counting function. When the counter0 is enabled, the couner0 starts to count. If the counter value is overflow or underflow, it will reset to the defined value (e.g. 0x33) but won’t keep counting.

  • Page 83: Figure 3.31A/B Phase 2X, With Reload, Count Once

    A/B Phase 2X, With Reload, Count Once Figure 3.17 shows A/B Phase 2X mode, Ch0_A and Ch0_B provide the counting function. When the counter0 is enabled, the couner0 starts to count. If the counter value is overflow or underflow, it will reset to the defined value (e.g. 0x33) and keep counting repetitively.

  • Page 84: Figure 3.32A/B Phase 2X , With Reload , Count Repetitively

    A/B Phase 2X, With Reload, Count Repetitively Figure 3.18 shows A/B Phase 2X mode, Ch0_A and Ch0_B provide the counting function. When the counter0 is enabled, the couner0 starts to count. If the counter value is overflow or underflow, it will reset to the defined value (e.g. 0x33) and keep counting repetitively.

  • Page 85: Figure 3.33A/B Phase 4X, No Reload, Count Once

    A/B Phase 4X, No Reload, Count Once Figure 3.19 shows A/B Phase 4X mode, Ch0_A and Ch0_B provide the counting function. When the counter0 is enabled, the couner0 starts to count. If the counter value is overflow or underflow, it will reset to the defined value (e.g. 0x33) but won’t keep counting.

  • Page 86: Figure 3.34A/B Phase 4X, With Reload, Count Once

    A/B Phase 4X, With Reload, Count Once Figure 3.20 shows A/B Phase 4X mode, Ch0_A and Ch0_B provide the counting function. When the counter0 is enabled, the couner0 starts to count. If the counter value is overflow or underflow, it will reset to the defined value (e.g. 0x33) and keep counting repetitively.

  • Page 87: Figure 3.35A/B Phase 4X, With Reload, Count Repetitively

    A/B Phase 4X, With Reload, Count Repetitively Figure 3.21 shows A/B Phase 2X mode, Ch0_A and Ch0_B provide the counting function. When the counter0 is enabled, the couner0 starts to count. If the counter value is overflow or underflow, it will reset to the defined value (e.g. 0x33) and keep counting repetitively.
  • Page 88 Pulse/DIR, With Reload, Count Once, DI Gate Disable Figure 3.22 shows pulse/direction mode, Ch0_A provides the counting function, one pulse, one count. Ch0_B provides the clockwise and counter clockwise function. When the counter0 is enabled, the couner0 starts to count. If the counter value is overflow or underflow, it will show the minimum (0x00) or maximum (0xFFFFFFFF) value and not count continuously.

  • Page 89: Figure 3.37Pulse/Dir, With Reload, Count Repetitively, Di Gate Disable

    Pulse/DIR, With Reload, Count Repetitively, DI Gate Disable Figure 3.23 shows pulse/direction mode, Ch0_A provides the counting function, one pulse, one count. Ch0_B provides the clockwise and counter clockwise function. When the counter0 is enabled, the couner0 starts to count. If the counter value is overflow or underflow, it will reset to the defined value (e.g.
  • Page 90 Pulse/DIR, With Reload, Count Once, DI Gate Enable, High level, Not Retrigger- able Figure 3.24 shows pulse/direction mode, Ch0_A provides the counting function, one pulse, one count. Ch0_B provides the clockwise and counter clockwise function. When the counter0 is enabled, the couner0 starts to count. If the counter value is overflow or underflow, it will reset to the defined value (e.g.
  • Page 91 Pulse/DIR, With Reload, Count Repetitively, DI Gate Enable, High level, Not Retriggerable Figure 3.25 shows pulse/direction mode, Ch0_A provides the counting function, one pulse, one count. Ch0_B provides the clockwise and counter clockwise function. When the counter0 is enabled, the couner0 starts to count. If the counter value is overflow or underflow, t will reset to the defined value (e.g.
  • Page 92 Pulse/DIR, With Reload , Count Once, DI Gate Enable, High level, Retriggerable Figure 3.26 shows pulse/direction mode, Ch0_A provides the counting function, one pulse, one count. Ch0_B provides the clockwise and counter clockwise function. When the counter0 is enabled, the couner0 starts to count. If the counter value is overflow or underflow, it will reset to the defined value (e.g.
  • Page 93 Pulse/DIR, With Reload, Count Repetitively, DI Gate Enable, High level, Retrig- gerable Figure 3.27 shows pulse/direction mode, Ch0_A provides the counting function, one pulse, one count. Ch0_B provides the clockwise and counter clockwise function. When the counter0 is enabled, the couner0 starts to count. If the counter value is overflow or underflow, it will reset to the defined value (e.g.
  • Page 94 Pulse/DIR, With Reload, Count Once, DI Gate Enable, Low level, Not Retrigger- able Figure 3.28 shows pulse/direction mode, Ch0_A provides the counting function, one pulse, one count. Ch0_B provides the clockwise and counter clockwise function. When the counter0 is enabled, the couner0 starts to count. If the counter value is overflow or underflow, it will reset to the defined value (e.g.
  • Page 95 Pulse/DIR, With Reload, Count Repetitively, DI Gate Enable, Low level, Not Retriggerable Figure 3.29 shows pulse/direction mode, Ch0_A provides the counting function, one pulse, one count. Ch0_B provides the clockwise and counter clockwise function. When the counter0 is enabled, the couner0 starts to count. If the counter value is overflow or underflow, t will reset to the defined value (e.g.
  • Page 96 Pulse/DIR, With Reload, Count Once, DI Gate Enable, Low level, Retriggerable Figure 3.29 shows pulse/direction mode, Ch0_A provides the counting function, one pulse, one count. Ch0_B provides the clockwise and counter clockwise function. When the counter0 is enabled, the couner0 starts to count. If the counter value is overflow or underflow, it will reset to the defined value (e.g.
  • Page 97 Pulse/DIR, With Reload, Count Repetitively, DI Gate Enable, Low level, Retrig- gerable Figure 3.30 shows pulse/direction mode, Ch0_A provides the counting function, one pulse, one count. Ch0_B provides the clockwise and counter clockwise function. When the counter0 is enabled, the couner0 starts to count. If the counter value is overflow or underflow, it will reset to the defined value (e.g.
  • Page 98 Pulse/DIR, With Reload, Count Once, DI Gate Enable, Rising Edge, Not Retrig- gerable Figure 3.31 shows pulse/direction mode, Ch0_A provides the counting function, one pulse, one count. Ch0_B provides the clockwise and counter clockwise function. When the counter0 is enabled, the couner0 starts to count. If the counter value is overflow or underflow, it will reset to the defined value (e.g.
  • Page 99 Pulse/DIR, With Reload, Count Repetitively, DI Gate Enable, Rising Edge, Not Retriggerable Figure 3.32 shows pulse/direction mode, Ch0_A provides the counting function, one pulse, one count. Ch0_B provides the clockwise and counter clockwise function. When the counter0 is enabled, the couner0 starts to count. If the counter value is overflow or underflow, t will reset to the defined value (e.g.
  • Page 100 Pulse/DIR, With Reload, Count Once, DI Gate Enable, Rising Edge, Retrigger- able Figure 3.33 shows pulse/direction mode, Ch0_A provides the counting function, one pulse, one count. Ch0_B provides the clockwise and counter clockwise function. When the counter0 is enabled, the couner0 starts to count. If the counter value is overflow or underflow, it will reset to the defined value (e.g.

  • Page 101: Enable, Rising Edge, Retriggerable

    Pulse/DIR, With Reload, Count Repetitively, DI Gate Enable, Rising Edge, Retriggerable Figure 3.34 shows pulse/direction mode, Ch0_A provides the counting function, one pulse, one count. Ch0_B provides the clockwise and counter clockwise function. When the counter0 is enabled, the couner0 starts to count. If the counter value is overflow or underflow, it will reset to the defined value (e.g.
  • Page 102 Pulse/DIR, With Reload, Count Once, DI Gate Enable, Falling Edge, Not Retrig- gerable Figure 3.35 shows pulse/direction mode, Ch0_A provides the counting function, one pulse, one count. Ch0_B provides the clockwise and counter clockwise function. When the counter0 is enabled, the couner0 starts to count. If the counter value is overflow or underflow, it will reset to the defined value (e.g.

  • Page 103: Enable, Falling Edge, Not Retriggerable

    Pulse/DIR, With Reload, Count Repetitively, DI Gate Enable, Falling Edge, Not Retriggerable Figure 3.36 shows pulse/direction mode, Ch0_A provides the counting function, one pulse, one count. Ch0_B provides the clockwise and counter clockwise function. When the counter0 is enabled, the couner0 starts to count. If the counter value is overflow or underflow, it will reset to the defined value (e.g.

  • Page 104: Falling Edge, Retriggerable

    Pulse/DIR, With Reload, Count Once, DI Gate Enable, Falling Edge, Retrigger- able Figure 3.37 shows pulse/direction mode, Ch0_A provides the counting function, one pulse, one count. Ch0_B provides the clockwise and counter clockwise function. When the counter0 is enabled, the couner0 starts to count. If the counter value is overflow or underflow, it will reset to the defined value (e.g.
  • Page 105 Pulse/DIR, With Reload, Count Repetitively, DI Gate Enable, Falling Edge, Retriggerable Figure 3.38 shows pulse/direction mode, Ch0_A provides the counting function, one pulse, one count. Ch0_B provides the clockwise and counter clockwise function. When the counter0 is enabled, the couner0 starts to count. If the counter value is overflow or underflow, it will reset to the defined value (e.g.

  • Page 106: Rising Edge Start

    Pulse/DIR, With Reload, Count Once, DI Gate Enable, Rising Edge Start Figure 3.39 shows pulse/direction mode, Ch0_A provides the counting function, one pulse, one count. Ch0_B provides the clockwise and counter clockwise function. When the counter0 is enabled, the couner0 starts to count. If the counter value is overflow or underflow, it will reset to the defined value (e.g.
  • Page 107 Pulse/DIR, With Reload, Count Repetitively, DI Gate Enable, Rising Edge Start Figure 3.40 shows pulse/direction mode, Ch0_A provides the counting function, one pulse, one count. Ch0_B provides the clockwise and counter clockwise function. When the counter0 is enabled, the couner0 starts to count. If the counter value is overflow or underflow, it will reset to the defined value (e.g.

  • Page 108: Falling Edge Start

    Pulse/DIR, With Reload, Count Once, DI Gate Enable, Falling Edge Start Figure 3.41 shows pulse/direction mode, Ch0_A provides the counting function, one pulse, one count. Ch0_B provides the clockwise and counter clockwise function. When the counter0 is enabled, the couner0 starts to count. If the counter value is overflow or underflow, it will reset to the defined value (e.g.
  • Page 109 Pulse/DIR, With Reload, Count Repetitively, DI Gate Enable, Rising Edge Start Figure 3.42 shows pulse/direction mode, Ch0_A provides the counting function, one pulse, one count. Ch0_B provides the clockwise and counter clockwise function. When the counter0 is enabled, the couner0 starts to count. If the counter value is overflow or underflow, it will reset to the defined value (e.g.

  • Page 110: Communication Modules

    Communication Modules 3.4.1 APAX-5090P 4-port RS-232/422/485 Communication Module APAX-5090P is equipped with two RS-422/485 ports and two RS232/422/485 ports, which can issue commands to control other devices. It is fully integrated with the APAX-557X series and transmits data to through the COM port. The integrated sys- tem is an intelligent stand-alone system and can connect and issue commands to control devices such as printers and PLCs in remote factory location.

  • Page 111: Table 3.1: Configuration Settings

    APAX-5090P Specifications Communications  Bus Interface: PCI bus specification 2.2 compliant  Channels COM1, COM2: RS-422/485 (isolated) COM3, COM4: RS-232/422/485 (isolated)  Data bits: 5, 6, 7, 8  Stop bits: 1, 1.5, 2  Parity: none, even, odd  Communication Controller: 16PCI954 ...

  • Page 112: Apax-5095P 2-Port Can Bus Communication Module

    3.4.2 APAX-5095P 2-Port CAN bus communication Module APAX-5095P is a special purpose communication module that offers the connectivity of the Controller Area Network (CAN). With its built-in CAN controllers, the APAX- 5095P provides bus arbitration and error detection with an automatic transmission repeat function.

  • Page 113: Figure 3.62Apax-5095P Pin Assignment

    APAX-5095P Specifications General  Bus Interface: PCI bus specification 2.2 compliant  CAN 2.0 A/B Hardware  Communication Controller: SJA-1000  CAN Transceiver: 82C250  Signal Support: CAN_H, CAN_L  Speed (bps): Up to 1 Mbps programmable transfer rate  Isolation Protection: 2000 VDC ...

  • Page 114: Apax-5490 4-Port Rs-232/422/485 Communication Module

    Table 3.2: Table 3.3: Configuration Settings SW1 and SW2 Settings 120 Ohm NONE Reserved Reserved Note! It will be better to add the terminal resistor on one side for transmission stability. 3.4.3 APAX-5490 4-port RS-232/422/485 Communication Module The APAX-5490 is equipped with four RS232/422/485 ports, which can issue com- mands to control other devices.
  • Page 115 APAX-5090P Specifications Communications  Channels COM1, COM2: RS-232/422/485 (Isolated) COM3, COM4: RS-232/422/485 (Isolated)  Data bits: 5, 6, 7, 8  Stop bits: 1, 1.5, 2  Parity: none, even, odd  Communication Controller: EXAR XR17V354  Communication Speed (bps): 50 ~ 230.4kbps ...
  • Page 116 APAX-5000 I/O Series User Manual...

  • Page 117: Backplane Modules

    Chapter Backplane Modules...

  • Page 118: Apax-5002/5002L 2-Slot Backplane Module

    MUST be used instead of standard Ethernet cable when the system is used in harsh environment, such as factory automation. Unmanaged industrial Ethernet switches (such as Advantech EKI-2528) with 100 Mbps transmission speed can also be used between two APAX-5002. Therefore, you can flexibly build any remote expansion with line, tree or star topology.

  • Page 119: Apax-5001 1-Slot Backplane Module

    APAX-5001 1-slot Backplane Module APAX-5001 functionality is the same as APAX-5002. And it is used to be connected at the right side of APAX-5002 when the total I/O module number is odd. Power and data can be transferred to I/O modules inserted on the APAX-5001. If the APAX-5001 is power-on, you can see the LED lit on to indicate the module is working well.
  • Page 120 APAX-5000 I/O Series User Manual...

  • Page 121: Chapter 5 Power Supply Modules

    Chapter Power Supply Modules...

  • Page 122: Apax-5343E Power Supply For Expansion Modules

    APAX-5343E Power Supply for Expansion Modules APAX-5343E Specifications Input  Rated Voltage: 115/230 VAC  Voltage Range: 90 ~ 264 VAC  Input Current: 1.5 A (at rated load)  Input Frequency Range: 47 ~ 63 Hz  Inrush Current: 50 A (one cycle at 25° C) ...

  • Page 123: Apax-5350 24V Dc/Dc Power Filter For P&E Applications

    APAX-5350 24V DC/DC Power Filter for P&E Applications APAX-5350 is a 24V DC power filter to filter the unexpected noise from the power source. This is a useful module to enhance the system stability especially in the envi- ronment with high electromagnetic interference, such as power substation. And this is a necessary unit for APAX to complaint with the IEC-61850-3 standard.
  • Page 124 APAX-5000 I/O Series User Manual...

  • Page 125: Error Handling And Diagnostics

    Chapter Error Handling and Diagnostics...

  • Page 126: Error Handling And Diagnostics

    The I/O modules has problem itself Solution: Download latest firmware again to see if it works well. If the LED continues flashing after updating firmware, then you need to contact Advantech for technical support.  LED continues flashing 2 times every 2 seconds Representation:...
  • Page 127 Then reboot the system and it should work fine. (The LED should stop flashing) If the LED continues flashing after you have adjusted the ID number, then you need to contact Advantech for technical support. APAX-5000 I/O Series User Manual...
  • Page 128 APAX-5000 I/O Series User Manual...

This manual is also suitable for:

Apax-5028Apax-5017Apax-5017hApax-5018Apax-5017pe

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