CN0418用户指南

2077283 2021-03-23 | pdf | 2.4MB | 次下载 | 3积分

资料介绍

This version (07 Jan 2021 09:06) was approved by Ioana Chelaru.The Previously approved version (03 Jan 2021 21:55) is available.

EVAL-CN0418-ARDZ Shield Overview
EVAL-CN0418-ARDZ attached to EVAL-ADICUP3029
Simplified functional block diagram
Schematic, PCB Layout, Bill of Materials
Software

EVAL-CN0418-ARDZ Shield Overview

The circuit shown in Figure 1 provides a complete, fully isolated and highly flexible, 4-channel analog output system suitable for programmable logic controllers (PLCs) and distributed control system (DCS) applications that require ±5 V, ±10 V voltage and 4 mA to 20 mA current output with HART-compatibility. All outputs are protected from transients and are suitable for the most harsh industrial environments.

The HART compatibility of this module provides a complete field communications solution that is simple to use, low cost, and extremely reliable.

The circuit is powered from a standard 24 V bus supply, with on-board filtering and protection circuitry. Because many factories and industrial environments power their PLC/DCS from a 24 V standard bus line, this module is easy to integrate into any existing system. This module can also be powered from other standard supplies, starting from 12 VDC to 28 VDC

This user guide will discuss how to use the EVAL-EVAL-ADICUP3029 and evaluation software to configure and collect data from the EVAL-CN0418-ARDZ Evaluation Board (CN-0418 Board).

EVAL-CN0418-ARDZ attached to EVAL-ADICUP3029

Simplified functional block diagram

General Setup

Equipment

EVAL-CN0418-ARDZ Evaluation Board
EVAL-ADICUP3029 Base Board
PC with a USB port and Windows 7 (32-bit) or higher
Serial Terminal Software (Putty/TeraTerm or similar)
DC Power Supply (+12 V to +24 V / 1 A) or equivalent bench supply (optional)
Precision voltage and current source (for output measurement)
USB type A to micro USB type A cable
CN0418 Evaluation Software

The EVAL-CN0418-ARDZ (CN-0418 Board) connects to the EVAL-ADICUP3029 (ADICUP3029 Board)
The EVAL-ADICUP3029 (ADICUP3029 Board) connects to the PC via the USB cable.
Terminal block P1 is the power supply input (input:+24V DC)
Terminal blocks P6 provide the quad channel voltage output (-10V to +10V), and Current output (0mA to 24mA) and standard 4 mA to 20 mA HART compatible current inputs.

Power Supply Considerations and Configuration (P1)

Terminal block P17 is the power supply input (input range:+12V to +36V DC). The EARTH terminal can be connected to an external earth connection, to the GND terminal or left floating if an external earth connection is not used. The Green power LED should lit up when connected to a power supply.

Default Shunt Jumper (P9 and P10) and DIP Switches (S3 and S4) Configuration

The default jumper position for P9 and P10 are shorted at position 1 and 2 while the two DIP switches S3 and S4 should be in ON state switch position.

P9 jumper connections for HART enable (EN) control			P10 jumper connections for Chip select (SYNC) control

Single board

If only a single board is used, then connect jumpers P9 and P10 as shown in the table below.

Position	Description	Mode	Position	Description	Mode
pin 1 & pin 2	skip decoder	single	pin 1 & pin 2	skip decoder	single

Multi board

If more than one board is stacked (up to 4), then each board must be set to a different DAC and HART select address. Connect jumpers P9 and P10 as shown in the table below, and ensure that the software is configured accordingly. On a given board, set the DAC and HART address to the same position. If necessary, the software can be changed to address differently the DAC and HART on a given board.

Position	Description	Mode	Position	Description	Mode
pin 4 & pin 6	AIN2:AIN3 = 00	multiple	pin 4 & pin 6	AIN0:AIN1 = 00	multiple
pin 3 & pin 5	AIN2:AIN3 = 01	multiple	pin 3 & pin 5	AIN0:AIN1 = 01	multiple
pin 7 & pin 5	AIN2:AIN3 = 10	multiple	pin 7 & pin 5	AIN0:AIN1 = 10	multiple
pin 8 & pin 6	AIN2:AIN3 = 11	multiple	pin 8 & pin 6	AIN0:AIN1 = 11	multiple

Default EEPROM Address configuration of Solder Jumper position JP2, JP3 and JP4

EEPROM default address configuration of the board is “000” you can configure the EEPROM I2C address from 000 to 111.

Default EEPROM WP ( Write Protect) mode configuration of Solder Jumper JP1

EEPROM WP pin can be configured as single or multi board operation. The default connection of WP pin is shorted to GND.

JP1 soldering position
Position	Description
pin 2 & pin 3	enable write protection (WP) (single board operation by default)
pin 2 & pin 1	control write protection (WP) (multi board operation)

16 bit Voltage and Current Analog Output Connection (P6)

Peripheral Connectors

All connector pinouts for the EVAL-CN0418-ARDZ are described in the table below.

Connector	Pin No.	Pin Name	ADuCM3029 Pin Function	CN0418 Pin Function
Arduino DIO High	1	SCL	I2C0_SCL/GPIO04	SCL (EEPROM)
	2	SDA	I2C0_SDA/GPIO05	SDA (EEPROM)
	3	AREF	VREF+	NC
	4	AGND	AGND (Analog ground)	DGND
	5	SCLK	SPI0_CLK/SPT0_BCLK/GPIO00	DAC_SCLK (AD5755-1)
	6	MISO	SPI0_MISO/SPT0_BD0/GPIO02	DAC_MISO_BUFF (AD5755-1)
	7	MOSI	SPI0_MOSI/SPT0_BFS/GPIO01	DAC_MOSI (AD5755-1)
	8	CS	SPI0_CS1/SYS_CLKIN/SPI1_CS3/GPIO26	DAC_SYNC(AD5755-1)
	9	RDY	SPI0_RDY/GPIO30	HART_MULT_A0(AD5700-1)
	10	IO28	GPIO28	HART_MUL_A1(AD5700-1)
Arduino DIO Low	1	IO08	BPR0_TONE_N/GPIO08	DAC_FAULT(AD5755-1)
	2	IO27	TMR1_OUT/GPIO27	AD5700_RTS (AD5700-1)
	3	IO33	XINT0_WAKE3/TMR2_OUT/GPIO33	AD5700_CD_BUFF(AD5700-1)
	4	IO09	BPR0_TONE_P/SPI2_CS1/GPIO09	SW_TXD (AD5700-1)
	5	IO13	XINT0_WAKE2/GPIO13	HW RXD (AD5700-1)
	6	IO15	XINT0_WAKE0/GPIO15	NC
	7	TX	UART0_TX/GPIO10	NC
	8	RX	UART0_RX/GPIO11	NC
Arduino Analog	1	AIN0	ADC0_VIN0/GPIO35	HART_COM_A0
	2	AIN1	ADC0_VIN1/GPIO36	HART_COM_A1
	3	AIN2	ADC0_VIN2/GPIO37	DAC_COM_A0
	4	AIN3	ADC0_VIN3/GPIO38	DAC_COM_A1
	5	AIN4	ADC0_VIN4/SPI2_CS3/GPIO39	NC
	6	AIN5	ADC0_VIN5/SPI0_CS2/GPIO40	NC
Arduino Power	1	NC	- not connected -	NC
	2	IOREF	+3.3V	IO_VREF (+3V3)
	3	RESET	SYS_HWRST_N	NC
	4	3.3V	+3.3V	NC
	5	5V	+5V	5V
	6	GND	DGND (Digital Ground)	GND
	7	GND	DGND (Digital Ground)	GND
	8	Vin	DC Barrel Jack Power +7V to +12V	+7.5V

Advanced Setup

Up to four EVAL-CN0418-ARDZ boards can be controlled by a single Arduino or EVAL-ADICUP3029 base board by using a simple control scheme. This control scheme will control the SYNC, CD and RX signals to avoid a data conflict.