回到顶部

MAXREFDES177# IO-Link Universal Analog IO

MAXREFDES177

参考设计免责声明 参照  重要声明和免责声明  涵盖参考设计和其他Maxim资源

描述

The MAXREFDES177# is a complete, IO-Link® universal analog input-output (IO) reference design that has a MAX22515 IO-Link transceiver with integrated protection. It demonstrates a fully software-configurable analog IO module using the MAX22000 industrial configurable analog IO device. The analog (field) side is fully isolated from the IO-Link side with the MAX14483 digital data isolator and an isolated power supply derived from the L+ (24V) supply from the IO-Link master connection.

The MAXREFDES177#, built in an industrial form factor, uses an industry-standard M12 connector with a 4-wire IO-Link cable. The analog (field) side uses a 4-way PCB terminal block. The complete reference design fits on a 61mm x 25mm printed circuit board (PCB).

The configurable modes include analog voltage input (±10V), analog current input (±20mA), analog voltage output (±10V), and analog current output (±20mA) across the AIO and GND terminals. The MAXREFES177# sets the linear range at 105% and full-scale range at 125% of the nominal range. The accuracy is as good as 0.1% over a ±50°C temperature variation. The other two terminals can be configured to measure temperature using a standard device such as a PT100 or PT1000 RTD. These terminals interface to the integrated Programmable Gain Amplifier (PGA) in the MAX22000 at inputs AI5 and AI6.

An Atmel® ATSAM low-power microcontroller interfaces between the MAX22000 industrial configurable analog IO device and MAX22515 IO-Link device transceiver. The MAX22515 features integrated surge protection for robust communication in a very small PCB area without requiring external protection components such as TVS diodes. The MAX22515 is available in a tiny 20-bump wafer-level package (WLP), allowing the MAXREFDES177# to have a small footprint. The design is reverse-polarity protected using the integrated active reverse-polarity protection of the MAX22515. The MAX22515 has two integrated LDO regulators (3.3V and 5V). The 3.3V LDO generates the 3.3V supply for other circuitry, reducing the number of required external components and saving space. The MAX22515 also features low on-resistance drivers (C/Q and DO/DI) to reduce power dissipation, allowing this reference design to consume minimal power with very low thermal dissipation.

This IO-Link device utilizes the Technologie Management Gruppe Technologie und Engineering (TMG TE) IO-Link device stack to communicate to any IO-Link version 1.1-compliant master. The board contains a male M12 connector to connect to a compliant IO-Link master using a standard M12 cable. Connecting the MAXREFDES177# to a USB IO-link master, such as the MAXREFDES165#, with the associated software allows for easy evaluation.

The design files, firmware, and software are available in the Design Resources tab. The board is also available for purchase.

Icon

设计,建造,测试

图中的电路板已完全组装并经过测试。

 

细节部分

细节部分

System Diagram

Figure 2. MAXREFDES177# system block diagram.


Figure 1. MAXREFDES177# IO-Link universal analog IO. 放大+

Introduction

Advanced factory automation solutions (Industry 4.0) require an increasing number of smart sensors and smart actuators, which are typically controlled using IO-Link point-to-point serial communication between the sensor/actuator and controller (master). Maxim Integrated, as a leading provider of IO-Link sensor transceivers and master transceiver ICs, also provides complete reference design solutions to help its customers improve their time to market. These proven designs cover all the hardware and software requirements needed for compliance with the IO-Link standard.

IO-Link is the first open, field bus agnostic, low-cost, point-to-point serial communication protocol used for communicating with sensors and actuators that has been adopted as an international standard (IEC 61131-9). IO-Link standardizes the interoperability of industrial equipment worldwide. IO-Link can function directly from the PLC or be integrated into all standard field buses, making it the de-facto standard for universally communicating with smart devices like the MAXREFDES177#.

A true field-configurable, universal IO is realized when the field programmability of the IO-Link is combined with a software-configurable IO. Industrial sensor/actuator OEMs can thus provide end users total flexibility at the factory floor level to simplify equipment installation and commissioning, while reducing their number of SKUs and BOMs, and simplifying and streamlining their purchasing and manufacturing.

Maxim Integrated and TMG TE collaborated to design the MAXREFDES177# reference design compliant with the IO-Link version 1.1/1.0 standard. The MAXREFDES177# design has an industry-standard MAX22515 IO-Link device transceiver, an Atmel ATSAM low-power microcontroller that uses the TMG TE IO-Link device stack, and a MAX22000 industrial universal analog IO device that is fully software configurable for all common industrial analog input and output, voltage and current ranges. The complete reference design fits on a 61mm x 25mm printed circuit board (PCB).

Detailed Description of Hardware

The MAXREFDES177# IO-Link universal analog IO consumes minimal power, space, and cost, making it a complete solution for the many analog input sensors or analog output actuators found in various industrial control and automation applications.

The MAX22515 IO-Link device transceiver is compliant with the IO-Link version 1.1/1.0 physical-layer specification. It integrates the high-voltage functions commonly found in industrial sensors, including drivers, and two linear regulators, all in a tiny 2.5mm x 2.0mm WLP. The MAX22515 has extensive integrated protection to ensure robust communication in harsh industrial environments. All four I/O pins (V24, C/Q, DO/DI, and GND) are reverse-voltage, short-circuit protected, and have integrated ±1kV/500Ω surge protection. Thus, a very small PCB area is needed with no required external protection components such as TVS diodes. The low on-resistance driver (C/Q) further reduces power dissipation so that this reference design consumes minimal power with very low thermal dissipation. Operation is specified for normal 24V supply voltages up to 36V. Transient protection is simplified due to high voltage tolerance (i.e., 65V absolute maximum rating) in addition to the integrated surge protection.

The two integrated LDO regulators in the MAX22515 generate 3.3V and 5V, reducing the number of additional external components and required space.

The MAX22515 features a flexible control interface through either an SPI or I2C interface. The I2C interface is used in this reference design to reduce the number of pins required by the microcontroller. The I2C interface provides extensive diagnostics for the MAX22515. A 3-wire UART interface is provided for IO-Link communication.

The MAXREFDES177# does not require external protection devices such as varistors or TVS diodes due to the integrated surge protection in the MAX22515 at the IO-Link interface. This reference design meets both the IEC 61000-4-2 for electrostatic discharge (ESD) up to ±4kV and IEC 61000-4-4 for electrical fast transient (EFT) ±4kV standards. It is designed to meet a surge capability (2A at t = 1.2/50μs) up to ±1.0kV. Additional TVS protection circuitry is included as part of the analog IO (field side) circuit.

The MAXREFDES177# uses an industry-standard M12 connector with a 4-wire cable.

The MAX22000 is an industrial-grade configurable analog input/output device configurable on-the-fly in software as a voltage/current input or output. Additional inputs are available to measure other analog signals. The device offers an 18-bit DAC with fast settling time as well as a 24-bit delta-sigma ADC. The ADC and DAC can individually choose between an internal or an external reference. This design uses the internal voltage reference. The MAX22000 can meet an accuracy of 0.1% over a ±50°C temperature variation because of the very stable 5ppm/°C internal reference. The MAX22000 sets the linear range at 105% and full-scale range at 125% of the nominal range. For example, the MAX22000 provides a linear range of ±10.5V and a full-scale range of ±12.5V for a nominal range of ±10V.

The MAX22000 supports the ADC with a low-noise PGA with high-voltage and low-voltage input ranges to support RTD measurements. Additional auxiliary inputs are also present, and in this design, implement on-board diagnostic measurement for the HVDD supply.

The MAX22000 communicates through a high-speed SPI bus for all configuration and management information as well as conversion results. An optional 8-bit CRC enhances the reliability of the SPI interface, protecting against all 8-bit bursts as well as all double-bit errors. The MAX22000 operates from 2.7V to 3.6V analog and digital supplies, and up to ±24V high-voltage supplies. The device is available in a 64-pin LGA package and operates over the -40°C to +125°C industrial temperature range.

Galvanic isolation between the IO-Link side (microcontroller) and the analog IO (field side) is provided by the MAX14483 for data isolation. A switched DC-DC is based around the MAX13256 transformer driver for power isolation.

The MAX14483 is a 6-channel, low-power, 3.75kVRMS SPI digital isolator. The six signal channels are individually optimized for SPI applications, and include very low propagation delay on the SDI, SDO, and SCLK channels. Two extra channels are used in this design for RDY feedback from the MAX22000 and for RST to allow the MCU to provide a software reset to the MAX22000. The MAX14483 is available in a 20-pin SSOP package with 5.5mm creepage and clearance.

The Atmel microcontroller limits the reference design operating temperature range from -40°C to +105°C. However, the MAX22515 IO-Link transceiver, MAX22000, and MAX14483 can all operate over the -40°C to +125°C temperature range.

Refer to the MAX22000 and MAX14483 data sheets for detailed information on the software-configurable analog IO device and digital isolator.

Power Supplies

Power solutions use Maxim Integrated ICs and modules to generate the various voltage rails on both the IO-Link and field sides of the isolation barrier (Figure 2). Power is supplied from the IO-Link cable on L+ and is nominally 24V on the IO-Link side. The MAX22515 has two internal LDOs, which can step down this 24V rail. However, a more efficient solution is realized by using a tiny MAXM17552 compact step-down power module to create a 5V input to the MAX22515, which then uses an integrated LDO to generate the 3.3V rail. The MAXM17522 is available in a low-profile, compact 10-pin 2.6mm x 3mm x 1.5mm µSLIC package.

The MAX13256 H-bridge transformer driver is a simple solution to make isolated power supplies up to 10W. The device drives a transformer's primary coil with up to 300mA of current from a wide 8V to 36V DC supply. The device is available in a small 10-pin (3mm x 3mm) TDFN package and is specified over the -40°C to +125°C temperature range.

The transformer's secondary-to-primary winding ratio defines the output voltage, allowing the selection of virtually any isolated output voltage. Two supplies, HVDD = +24V and HVSS = -24V, are generated in this design. For this design the same supplies are used for HVDDO and HVSSO respectively. On the analog or field side, a MAXM17522 is used to step down the HVDD rail to 3.3V for the DVDD and AVDD requirements of MAX22000.

The MAXREFDES177# consumes 30mA to 35mA (typ) under normal conditions, and more if the current input or output mode is selected. A red LED indicates a power fault on the transformer driver while an additional green LED indicates the presence of AVDD supply.

Detailed Description of Firmware

The MAXREFDES177# is shipped preprogrammed as a working IO-Link device ready to connect to an IO-Link master. The firmware targets an Atmel ATSAM microcontroller and follows the simple flowchart in Figure 3. The firmware utilizes the TMG TE IO-Link device stack. The MAXREFDES177# waits for a wake-up signal from the IO-Link master after plug-in. The MAXREFDES177# synchronizes to the IO-Link master using the 230.4kbps (COM3) baud rate on receiving the wake-up signal. The communication parameters are exchanged. The IO-Link master then starts a cyclic data exchange by requesting the sensor process data. The IO-Link master detects a missing sensor if the MAXREFDES177# is removed.

MAXREFDES177# firmware flowchartFigure 3. MAXREFDES177# firmware flowchart.

The TMG TE IO-Link Device Tool software is Windows®-compatible, features IODD file import capability, connects to a PC through USB, and is available to download from the TMG TE website.

The TMG TE IO-Link Device Tool software is shown in Figure 4. A complete guide is also downloadable from the TMG TE website.

The TMG TE IO-Link device toolFigure 4. The TMG TE IO-Link device tool.

The source code for the MAXREFDES177# is not available. The TMG TE IO-Link stack is shipped preprogrammed inside the MAXREFDES177# hardware with a perpetual license.

The TMG TE contact information is:
Technologie Management Gruppe
Technologie und Engineering GmbH
Zur Giesserei 10
76227 Karlsruhe
Germany
Phone: +49 7218 28060
E-Mail: willems@tmgte.de
Internet: www.tmgte.com

Detailed Description of Software

The MAXREFDES177# was verified using the MAXREFDES165# IO-Link Master, featuring the MAX14819 IO-Link master transceiver and IODD interpreter tool IO-Link Device Tool from the TMG TE website.

Download the IODD file (*.xml) located in the Design Resources tab. Follow the step-by-step instructions in the Quick Start Guide section to use the software. Figure 4 is a screenshot of the TMG TE IO-Link Device Tool communicating with the master and sensor.

EMC Testing

The general rules for the test configuration of a device (such as the MAXREFDES177#) are as follows:

  • The SDCI cable shall be unshielded, 20m long, coiled, and placed 10cm (4in) above the ground plane.
  • The devices shall be placed 10cm (4in) above the ground plane.

The MAXREFDES177# was tested in a Maxim Integrated lab for the common industrial compliance standards, and the test methodology and results are presented in this document. Although the IO-Link Interface and System Specification does not require surge testing, Maxim did this test in addition to the ESD and EFT tests.

Equipment Used:

  • MAXREFDES177# IO-Link Sensor
  • MAXREFDES165# 4-Port IO-Link Master
  • 20m M12 Cable
  • Haefely® Technology ECOMPACT4 EFT/Surge Generator
  • Teseq® CDN 117 Signal Line Coupling Network
  • Teseq CDN 3425 EFT Data Line Coupling Clamp
  • Teseg NSG438 ESD Generator

Surge Testing

The MAXREFDES177# module was tested to withstand up to ±1.0kV of 1.2/50µs IEC 61000-4-5 surge with a total source impedance of 500Ω. The surge testing was performed using the MAXREFDES165# IO-Link master. Ten surge pulses were applied for each test (Table 1 and Table 2).

The MAXREFDES177# continued to operate normally (executed code and transferred data) and was not damaged by the tests. The MAX22515 registers were not corrupted while communicating with the master during the tests shown in Table 1. Maxim Integrated also tested the analog IO (field side) (Table 2) in addition to testing the IO-Link side.

Table 1. Surge test results for the IO-Link interface.

Test Condition

Surge Tests

L+ TO GND C/Q TO GND L+ TO CQ
+1kV Pass Pass Pass
-1kV Pass Pass Pass

Table 2. Surge test results for the analog IO interface.

Test Condition

Surge Tests

AIO TO AGND AIO TO SNS+ AIO TO SNS-
+1.2kV Pass Pass Pass
-1.2kV Pass Pass Pass

EFT/Burst Testing

The MAXREFDES177# was tested to withstand electrical fast transient (EFT)/bursts up to ±4kV according to IEC 61000-4-4 with a 20m IO-Link cable with standard M12 connectors. The EFT testing was performed using the MAXREFDES165# IO-Link master. The EFT pulses were applied for one minute for each test (Table 3).

Table 3. EFT/Burst test results.

Test Condition 5kHz/15ms 100kHz/0.75ms
+4kV Pass Pass
-4kV Pass Pass

ESD Testing

The MAXREFDES177# was tested to withstand electrostatic discharge (ESD) for Contact and Air-Gap Discharge up to ±4kV according to IEC 61000-4-2. The ESD testing was performed on the MAXREFDES177# M12 connector pins after the test operation was verified using the MAXREFDES165# IO-Link master to transfer data (Table 4). The MAXREFDES177# was not damaged by any ESD tests and continued to operate normally.

Table 4. ESD test results.

Test Condition L+ TO GND C/Q TO GND
+4kV Contact Discharge Pass Pass
-4kV Contact Discharge Pass Pass
+4kV Air-Gap Discharge Pass Pass
-4kV Air-Gap Discharge Pass Pass

The IO-Link interface and system specification version 1.1.2 requires ESD testing with a 20m cable attached, and the ESD strike is applied to the sensor casing. Because this reference design is only a PCB with no metallic casing, the ESD strikes were applied to the male M12 connector pins. Maxim Integrated expects this design to meet the levels specified in Table 4 when testing with a casing and cable.

Restrictions and Warnings for Maxim Integrated Reference Design Use

The MAXREFDES177# is designed and tested to meet IO-Link operation and harsh industrial environments covered by the IEC 61000-4-x standards for transient immunity. This board and associated software are designed to be used to evaluate the performance of the MAX22515 and MAX22000 but are not intended to be deployed as-is into an end product in a factory automation system.

The MAXREFDES177# is not for use in functional safety or safety-critical systems.

参数化

输入类型 Vin(Min) Vin(Max) Iout(Max) 单路/多路输出 Vout(V) Pout(W) 隔离/非隔离 拓扑
DC 24 - - - - - - -

参数化

输入类型 DC
Vin(Min) 24
Vin(Max) -
Iout(Max) -
单路/多路输出 -
Vout(V) -
Pout(W) -
隔离/非隔离 -
拓扑 -

Maxim设备 (6)

器件号 名称 产品线 购买 设计套件和评估模块
MAX22515 收发器 立即购买 设计套件
MAX22000 数/模转换器(DAC) 立即购买 设计套件
MAX14483 6通道、低功耗、3.75kVRMS、SPI数字隔离器 隔离IC 立即购买 设计套件
MAX17552 60V、100mA、超小尺寸、高效率、 同步降压型DC-DC转换器,空载耗流为22μA 开关稳压器 立即购买 设计套件
MAX13256 36V H桥变压器驱动器,用于隔离电源设计 隔离电源 立即购买 设计套件
MAXM17552 4V至60V、100mA、结构紧凑的降压型电源模块 开关稳压器 立即购买 设计套件

Maxim设备 (6)

器件号 产品线
收发器
数/模转换器(DAC)
隔离IC
6通道、低功耗、3.75kVRMS、SPI数字隔离器
开关稳压器
60V、100mA、超小尺寸、高效率、 同步降压型DC-DC转换器,空载耗流为22μA
隔离电源
36V H桥变压器驱动器,用于隔离电源设计
开关稳压器
4V至60V、100mA、结构紧凑的降压型电源模块

设计资料 (5)

标题 类型 尺寸 日期
maxrefdes177-pcb PDF 1MB 2020-10-20
maxrefdes177-schematic PDF 155KB 2020-10-20
maxrefdes177-bom CSV 11KB 2020-10-20
maxrefdes177 ZIP 1MB 2020-10-20
maxrefdes177-iodd ZIP 106KB 2020-10-26
日期 类型
2020-10-20

maxrefdes177-pcb

(PDF, 1MB)

2020-10-20

maxrefdes177-schematic

(PDF, 155KB)

2020-10-20

maxrefdes177-bom

(CSV, 11KB)

2020-10-20

maxrefdes177

(ZIP, 1MB)

2020-10-26

maxrefdes177-iodd

(ZIP, 106KB)

MAXREFDES177 相关视频

查看所有视频