Microflex MicroLink-HM 101-0029 Installation & Operation Manual Download | Manualshive

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Setup Software

Installation

Operation

& Specifications

Manual

620-0018 R1.1 © Microﬂ ex 2016, 2017

101-0029

MicroLinK HM

RS-232 HART Protocol Modem
HART Device to Modbus Accumulator
DIN Rail Mount

The MicroLink-HM 101-0029 is an RS-232 to HART® protocol modem with managed HART master timing to
function as either a primary or secondary HART master - eliminating the need for external CD monitoring and RTS
control. It can also be used as a HART to Modbus Concentrator polling up to 16 HART devices. Power can be taken
from the serial port DTR handshake line or an external 5 to 30 volts DC power supply.

When used as a HART protocol modem it provides the hardware interface between Highway Addressable Remote
Transducer devices (HART) and a computer with an RS-232 port. Unlike many HART modems, communications
direction control is handled internally so there is no need to handle tricky request-to-send (RTS) handshake timing,
greatly simplifying software development and enabling the MicroLink-HM modem to be compatible with common
USB to RS-232 serial converters. Serial port baud rates can be set from 1200 to 57,600 and parity can be odd, even,
or none. HART protocol communications between the MicroLink-HM and HART devices is always 1200 baud, odd
parity.

MicroLink-HM can be conﬁ gured to poll up to 16 HART devices and save the HART device data into modbus reg-
isters. Modbus RTU commands can then be used to read the HART device data. Conﬁ guration is simple using the
included MicroLink-HM Conﬁ guration software. Settings are saved in modus registers so modbus RTU commands
can also be used to edit the MicroLink settings. No special conﬁ guration cable is needed for setup as communica-
tions is done using the MicroLink-HM serial port.

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Summary of Contents for MicroLink-HM 101-0029

Page 1: ...Unlike many HART modems communications direction control is handled internally so there is no need to handle tricky request to send RTS handshake timing greatly simplifying software development and enabling the MicroLink HM modem to be compatible with common USB to RS 232 serial converters Serial port baud rates can be set from 1200 to 57 600 and parity can be odd even or none HART protocol commun...

Page 2: ...e HART loop The 1200 baud odd parity HART reply packet is received by the MicroLink HM modem and then transmitted back at the higher baud rate If MicroLink HM is conﬁgured to Fill Modbus Registers and the serial port detects a HART packet on the RS 232 port MicroLink HM will temporarily switch to HART mode and stop polling devices HART protocol packets always begin with the hex FF preamble charact...

Page 3: ...ive will share the ground pin 5 with the power supply ground If external power is used then DTR should not be con nected to the mating RS 232 port Only transmit receive and ground are required for communications 5 GROUND 2 RX 3 TX 4 DTR 5 30Vdc Figure 2 DB 9 Wiring Diagram HART Status LED Power Supply RS 232 Driver Rcvr HART Modem Microcontroller Modbus Register Tables TX RX CD RTS 1 2 RX 3 TX 4 D...

Page 4: ... device or up to 16 devices When more than one device is in the loop each HART device must have a unique HART polling address The address for each device is set before wiring the device into the multi drop loop The device polling address for each device is stored in the MicroLink HM using the MicroLink HM conﬁguration software Modbus slave address baud rate parity and other settings are set using ...

Page 5: ...ted to a multi drop HART loop and can be set from 1 to 63 Address 0 can only be used when one device is in the HART loop Polling addresses 16 63 should only be used with HART revi sions 6 and higher For HART 3 5 use addresses 1 15 for multi drop systems HART Protocol Settings With Fill Modbus Registers unchecked MicroLink HM will function as a standard HART protocol modem and not poll HART devices...

Page 6: ...stored into a 16 bit signed Modbus register the value can range from 32768 to 32767 To allow the 16 bit integer to represent a smaller number and include fractional information the number of decimal places is stored in a separate Modbus register and applied later The number of decimal places can be set from 0 to 5 Decimal places can be set for each variable The Device Variables box shows the eﬀect...

Page 7: ...o IEEE 754 NaN 0 for integers Bits 7 6 HART poll retries Sets number of HART device poll retries from 1 to 3 After poll retries the HART failed mode value is stored in the variable register Bits 3 0 Number of polled devices 1 Range is 0 to 15 0 1 polled device 15 16 polled devices ϭϱ ϭϰ ϭϯ ϭϮ ϭϭ ϭϬ ϵ ϴ ϳ ϲ ϱ ϰ ϯ Ϯ ϭ Ϭ Zd ĂŝůĞĚ DŽĚĞ ŝƚ ϭͿ Zd ĂŝůĞĚ DŽĚĞ ŝƚ ϬͿ Zd ZĞƚƌŝĞƐ ŝƚ ϭͿ Zd ZĞƚƌŝĞƐ ŝƚ ϬͿ Ϭс ŝůů...

Page 8: ... 01 Even 10 Odd Mode Settings Bit 9 Floating point value byte order 0 Standard byte order AB CD 1 Swapped words CD AB Bit 8 Modbus device map 0 Map register data by HART device 1 Map register data by variable type ϭϱ ϭϰ ϭϯ ϭϮ ϭϭ ϭϬ ϵ ϴ ϳ ϲ ϱ ϰ ϯ Ϯ ϭ Ϭ Ϭс ĨůŽĂƚ ďǇƚĞ ŽƌĚĞƌ ϭс ϬсďǇ ĞǀŝĐĞ DĂƉ ϭсďǇ sĂƌŝĂďůĞ DĂƉ ϳϳϰ Ͳ DŽĚĞ ĞƚƚŝŶŐƐ Bits 11 8 1 1200 Baud 2 2400 3 4800 4 9600 5 14400 6 19200 7 38400 8 5760...

Page 9: ...ŝĐĞ dǇƉĞ ϭ ϳϯϮ Ϯ ϯ ϭϮ ϳϯϯ WƌĞĂŵďůĞƐ DĂŶ ŽĚĞ Žƌ dǇƉĞ ϳϯϰ ĞǀŝĐĞ dǇƉĞ ϭ ϳϯϱ Ϯ ϯ ϭϯ ϳϯϲ WƌĞĂŵďůĞƐ DĂŶ ŽĚĞ Žƌ dǇƉĞ ϳϯϳ ĞǀŝĐĞ dǇƉĞ ϭ ϳϯϴ Ϯ ϯ ϭϰ ϳϯϵ WƌĞĂŵďůĞƐ DĂŶ ŽĚĞ Žƌ dǇƉĞ ϳϰϬ ĞǀŝĐĞ dǇƉĞ ϭ ϳϰϭ Ϯ ϯ ϭϱ ϳϰϮ WƌĞĂŵďůĞƐ DĂŶ ŽĚĞ Žƌ dǇƉĞ ϳϰϯ ĞǀŝĐĞ dǇƉĞ ϭ ϳϰϰ Ϯ ϯ ϭϲ ϳϰϱ WƌĞĂŵďůĞƐ DĂŶ ŽĚĞ Žƌ dǇƉĞ ϳϰϲ ĞǀŝĐĞ dǇƉĞ ϭ ϳϰϳ Ϯ ϯ Polled HART Devices Long Address Table Device ID information is read from each polled devic...

Page 10: ...ƚĞͿ ϭ ϳϱϲ WsͲ dsͲ s Ϯ ϳϱϳ WsͲ dsͲ s ϯ ϳϱϴ WsͲ dsͲ s ϰ ϳϱϵ WsͲ dsͲ s ϱ ϳϲϬ WsͲ dsͲ s ϲ ϳϲϭ WsͲ dsͲ s ϳ ϳϲϮ WsͲ dsͲ s ϴ ϳϲϯ WsͲ dsͲ s ϵ ϳϲϰ WsͲ dsͲ s ϭϬ ϳϲϱ WsͲ dsͲ s ϭϭ ϳϲϲ WsͲ dsͲ s ϭϮ ϳϲϳ WsͲ dsͲ s ϭϯ ϳϲϴ WsͲ dsͲ s ϭϰ ϳϲϵ WsͲ dsͲ s ϭϱ ϳϳϬ WsͲ dsͲ s ϭϲ ϳϳϭ WsͲ dsͲ s Number of Decimal Places Table When storing the HART variable data in 16 bit modbus registers the maximum range is 32768 to 32767 To ...

Page 11: ...ƚĞŐĞƌ ϭϬ ds ŶƚĞŐĞƌ ϯϰ ds ŶƚĞŐĞƌ ϭϭ s ŶƚĞŐĞƌ ϯϱ s ŶƚĞŐĞƌ ϭϮ Zd ƚĂƚƵƐ ϯϲ Zd ƚĂƚƵƐ ϭϯ D с Ws hKD с s hKD ϯϳ D с Ws hKD с s hKD ϭϰ D с ds hKD с s hKD ϯϴ D с ds hKD с s hKD Ϯϲϰ Ϯϲϱ Ws ůŽĂƚ Ϯϴϴ Ϯϴϵ Ws ůŽĂƚ Ϯϲϲ Ϯϲϳ s ůŽĂƚ ϮϵϬ Ϯϵϭ s ůŽĂƚ Ϯϲϴ Ϯϲϵ ds ůŽĂƚ ϮϵϮ Ϯϵϯ ds ůŽĂƚ ϮϳϬ Ϯϳϭ s ůŽĂƚ Ϯϵϰ Ϯϵϱ s ůŽĂƚ ĞǀŝĐĞ ϯ ĞǀŝĐĞ ϲ ϭϲ Ws ŶƚĞŐĞƌ ϰϬ Ws ŶƚĞŐĞƌ ϭϳ s ŶƚĞŐĞƌ ϰϭ s ŶƚĞŐĞƌ ϭϴ ds ŶƚĞŐĞƌ ϰϮ ds ŶƚĞŐĞƌ ϭϵ s ŶƚĞŐĞƌ ϰϯ s...

Page 12: ...ϴϬ Ws ŶƚĞŐĞƌ ϱϳ s ŶƚĞŐĞƌ ϴϭ s ŶƚĞŐĞƌ ϱϴ ds ŶƚĞŐĞƌ ϴϮ ds ŶƚĞŐĞƌ ϱϵ s ŶƚĞŐĞƌ ϴϯ s ŶƚĞŐĞƌ ϲϬ Zd ƚĂƚƵƐ ϴϰ Zd ƚĂƚƵƐ ϲϭ D с Ws hKD с s hKD ϴϱ D с Ws hKD с s hKD ϲϮ D с ds hKD с s hKD ϴϲ D с ds hKD с s hKD ϯϭϮ ϯϭϯ Ws ůŽĂƚ ϯϯϲ ϯϯϳ Ws ůŽĂƚ ϯϭϰ ϯϭϱ s ůŽĂƚ ϯϯϴ ϯϯϵ s ůŽĂƚ ϯϭϲ ϯϭϳ ds ůŽĂƚ ϯϰϬ ϯϰϭ ds ůŽĂƚ ϯϭϴ ϯϭϵ s ůŽĂƚ ϯϰϮ ϯϰϯ s ůŽĂƚ ĞǀŝĐĞ ϵ ĞǀŝĐĞ ϭϮ ϲϰ Ws ŶƚĞŐĞƌ ϴϴ Ws ŶƚĞŐĞƌ ϲϱ s ŶƚĞŐĞƌ ϴϵ s ŶƚĞŐĞƌ ϲϲ ds ŶƚĞŐ...

Page 13: ... D с ds hKD с s hKD ϯϱϮ ϯϱϯ Ws ůŽĂƚ ϯϲϴ ϯϲϵ Ws ůŽĂƚ ϯϱϰ ϯϱϱ s ůŽĂƚ ϯϳϬ ϯϳϭ s ůŽĂƚ ϯϱϲ ϯϱϳ ds ůŽĂƚ ϯϳϮ ϯϳϯ ds ůŽĂƚ ϯϱϴ ϯϱϵ s ůŽĂƚ ϯϳϰ ϯϳϱ s ůŽĂƚ ĞǀŝĐĞ ϭϰ ĞǀŝĐĞ ϭϲ ϭϬϰ Ws ŶƚĞŐĞƌ ϭϮϬ Ws ŶƚĞŐĞƌ ϭϬϱ s ŶƚĞŐĞƌ ϭϮϭ s ŶƚĞŐĞƌ ϭϬϲ ds ŶƚĞŐĞƌ ϭϮϮ ds ŶƚĞŐĞƌ ϭϬϳ s ŶƚĞŐĞƌ ϭϮϯ s ŶƚĞŐĞƌ ϭϬϴ Zd ƚĂƚƵƐ ϭϮϰ Zd ƚĂƚƵƐ ϭϬϵ D с Ws hKD с s hKD ϭϮϱ D с Ws hKD с s hKD ϭϭϬ D с ds hKD с s hKD ϭϮϲ D с ds hKD с s hKD ϯϲϬ ϯϲϭ Ws ů...

Page 14: ...ϲϯ ϳϵ ϵϱ ϭϭϭ Zd Ws s ds Ys ĞǀŝĐĞ ůŽĂƚ ůŽĂƚ ůŽĂƚ ůŽĂƚ ϭ Ϯϱϲ Ϯϱϳ Ϯϴϴ Ϯϴϵ ϯϮϬ ϯϮϭ ϯϱϮ ϯϱϯ Ϯ Ϯϱϴ Ϯϱϵ ϮϵϬ Ϯϵϭ ϯϮϮ ϯϮϯ ϯϱϰ ϯϱϱ ϯ ϮϲϬ Ϯϲϭ ϮϵϮ Ϯϵϯ ϯϮϰ ϯϮϱ ϯϱϲ ϯϱϳ ϰ ϮϲϮ Ϯϲϯ Ϯϵϰ Ϯϵϱ ϯϮϲ ϯϮϳ ϯϱϴ ϯϱϵ ϱ Ϯϲϰ Ϯϲϱ Ϯϵϲ Ϯϵϳ ϯϮϴ ϯϮϵ ϯϲϬ ϯϲϭ ϲ Ϯϲϲ Ϯϲϳ Ϯϵϴ Ϯϵϵ ϯϯϬ ϯϯϭ ϯϲϮ ϯϲϯ ϳ Ϯϲϴ Ϯϲϵ ϯϬϬ ϯϬϭ ϯϯϮ ϯϯϯ ϯϲϰ ϯϲϱ ϴ ϮϳϬ Ϯϳϭ ϯϬϮ ϯϬϯ ϯϯϰ ϯϯϱ ϯϲϲ ϯϲϳ ϵ ϮϳϮ Ϯϳϯ ϯϬϰ ϯϬϱ ϯϯϲ ϯϯϳ ϯϲϴ ϯϲϵ ϭϬ Ϯϳϰ Ϯϳϱ ϯϬϲ ϯϬϳ ϯϯϴ ϯϯϵ ϯϳϬ ϯϳϭ ϭϭ Ϯϳϲ...

Page 15: ... to Process Loop 10μA Max Status LED Green Transmitting HART packet Red Receiving HART packet Environmental Operating Temperature 30ºC to 60ºC 22ºF to 140ºF Storage Temperature 40ºC to 85ºC 40ºF to 185ºF Humidity 0 to 95 non condensing Specifications PP PP PP 57 223 5 6 5 7 50 1 6 PP PP 1 5 3 67 786 56 3257 Modbus RTU Baud Rates 1200 2400 4800 9600 114400 19200 38400 57600 Parity None Odd Even Flo...

Page 16: ...95 A1 1998 A2 2001 Radiated Immunity EN 61000 4 3 2002 Safety Compliance EN 60950 1 2002 This device does not have protection from over voltages which may exist on RS 232 ports of computers and relies on the protection existing in a host computer This device is not intended for connection to the phone line through the appropriate converters and shall not be connected to telecommunication lines bec...

Page 17: ... S RIGHT TO RECOVER DAMAGES CAUSED BY FAULT OR NEGLIGENCE ON THE PART OF MICROFLEX SHALL BE LIMITED TO THE AMOUNT THERETOFORE PAID BY THE CUSTOMER MICROFLEX LLC WILL NOT BE LIABLE FOR DAMAGES RESULTING FROM LOSS OF DATA PROFITS USE OF PRODUCTS OR INCIDENTAL OR CONSEQUENTIAL DAMAGES EVEN IF ADVISED OF THE POSSIBILITIES THEREOF This limitation of the liability of Microﬂex LLC will apply regardless o...

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