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===== XT1541 ===== ==== XT1541 ====
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===== XT1111 & 1121 ===== ==== XT1111 & 1121 ====

Slow Controls

Old Slow Controls Machines (Pre-2017)

Slow DAQ Modules

The new slow DAQ system uses the Acromag XT series DIN-rail mounted A/D, D/A and BIO modules. The model numbers are in the format XTYYY1, where "XT" is a static prefix, "YYY" determines the function, and the "1" denotes the ModBus/TCP version of the model. The 1 at the end is important, as the other variations will not interface with CDS through EPICS properly.

Module

Function

# Channels

Notes

XT1111

Binary I/O

16

Sinking outputs

XT1121

Binary I/O

16

Sourcing outputs

XT1221

ADC

8

Differential inputs

XT1541

DAC

8

4 additional sourcing output BIO channels

Documentation

HowTo

Configure Acromag XT modules

Initial configuration via USB is required before the units can be used on the network. This requires a USB-to-miniUSB cable, a Microsoft Windows (Version?) (virtual) machine, and the configuration utilities which can be downloaded from the Acromag website (login required). Each model requires a different flavor of the utility to be run. Virtual machines work with USB2.0 ports, but have issues when using USB3.0+ ports. The to-be-configured device needs to be powered by a 12-32V DC voltage source.

Configure slow controls server machine

The following has proven to work with Debian Jessie running on a Supermicro SYS-5015A-H (Intel Atom processor without 64-bit support). This guide was written after-the-fact, so some steps may be missing. When configuring the next machine the gaps will be filled.

  • Fresh install of Debian Jessie (x86) with lightweight desktop environment
  • Set desired SSH privileges
  • Set up remote file system access
  • (Optional) Add LIGO repositories
  • Download EPICS-base distribution, Modbus package, and Asyn drivers, install & build (if not pre-built). The (only attempted) combination of EPICS base version 3.15.5 with ASyn 4-32 and Modbus R2-10-1 has been found to work (in combination with base 3.14.12.2_long on the rest of the machines)

  • Set up systemd service for automatic start of the Modbus IOC

Configure XT unit Modbus driver

# Use the following commands for TCP/IP 
# drvAsynIPPortConfigure(const char *portName,  # user-defined: used for subsequent referencing, 
#                        const char *hostInfo,  # format: "IP-Address:Port". Standard port for Modbus is 502
#                        unsigned int priority, # 
#                        int noAutoConnect,     # 
#                        int noProcessEos);     # 
#
# Examples:
# drvAsynIPPortConfigure("<TCP_PORT_NAME>","<UNIT_IP_ADDRESS>:502",0,0,1)
# drvAsynIPPortConfigure("c1auxex_xt1221a","192.168.114.11:502",0,0,1)

# modbusInterposeConfig(const char *portName,    # reference to portName created with drvAsynIPPortConfigure command
#                       modbusLinkType linkType, # 
#                       int timeoutMsec,         # define timeout for waiting for response from unit
#                       int writeDelayMsec)      #
#
# Example:
# modbusInterposeConfig("<TCP_PORT_NAME>",0,5000,0)
# modbusInterposeConfig("c1auxex_xt1221a",0,5000,0)

#drvModbusAsynConfigure(portName,                # used by channel definitions in .db file to reference this unit)
#                       tcpPortName,             # reference to portName created with drvAsynIPPortConfigure command
#                       slaveAddress,            # 
#                       modbusFunction,          # defines driver function for the unit (read register = 4, write register = 6, write single coil = 5) - see examples in next section
#                       modbusStartAddress,      # ADC and binary channel numbering starts with 0, DAC channel numbering with 1
#                       modbusLength,            # length in dataType units - see examples in next section
#                       dataType,                # 4 = 16-bit signed integers (for A/D and D/A), 0 = binary (for BIO, duh)
#                       pollMsec,                # how frequently to request a value in [ms]
#                       plcType);                #
#
# Example:
# drvModbusAsynConfigure("<PORT_NAME>","<TCP_PORT_NAME>",0,<modbusFunction>,<modbusStartAddress>,<modbusLength>,<dataType>,<pollMsec>,"Acromag")

XT1221

drvModbusAsynConfigure("C1AUXEX_XT1221A_ADC","c1auxex_xt1221a",0,4,0,8,4,32,"Acromag")

XT1541

drvModbusAsynConfigure("C1AUXEX_XT1541A_DAC","c1auxex_xt1541a",0,6,1,8,4,32,"Acromag")
drvModbusAsynConfigure("C1AUXEX_XT1541A_BIO","c1auxex_xt1541a",0,5,0,4,0,32,"Acromag")

XT1111 & 1121

drvModbusAsynConfigure("C1AUXEX_XT1111A_BIO","c1auxex_xt1111a",0,6,0,4,0,32,"Acromag")

Define EPICS channels

Note: Modbus/TCP is simply a protocol for sending commands via TCP that the XT units can interpret, as in read/write the correct register values to/from the channels. There may be multiple ways to define the channels have the same effect. The settings reported here have been found to work as intended.

Many of the fields in the EPICS records are somewhat supplemental and not required for the channel definitions, but some have real effect in MEDM screens, such as upper limits on slider bars and the such.

XT1221

field(INP,"@asynMask(<ADC_UNIT_PORT_NAME> 0 -16)MODBUS_DATA")

XT1541

record(ao, "<AO_CHANNEL_NAME>")
{
        field(DTYP,"asynInt32")
        field(OUT,"@asynMask(<DAC_UNIT_PORT_NAME>, 0, -16)MODBUS_DATA")
}

record(bo, "<BO_CHANNEL_NAME>")
{
        field(DTYP,"asynUInt32Digital")
        field(OUT,"@asynMask(<DAC_UNIT_PORT_NAME>, 3, 0x1)")
}

XT1111 & 1121

record( bo, "CHANNEL_NAME")
{
        field(DTYP,"asynUInt32Digital")
        field(OUT,"@asynMask(BIO0_Reg, 0, 0x1)")
}

CDS/SlowControls (last edited 2023-06-12 19:42:12 by AnchalguptaATligoDOTorg)