Micromod MOD: 1800P - MOD 30ML Identity Module (Version 2) System, I/O and Communications Functions User Manual

Logic Functions - Book 1

ANALOG INPUT MODULE BLOCKS (VCIM, TIM, RIM, WRIM)

5-42

18

Extended Error Code (EXTERR) ......................................................................................– WR
The extended error code is a bitmapped two byte (16 bit) error code from the module that is
presented as a count value. The count value must be converted to binary to decode the
following bit mapped error pattern:

Bit

Extended Errors (Lower Byte) Bit

Status Errors (Upper Byte)

0

UART Timeout

8

VRAM (0=Low, 1=High)

1

Checksum Error

9

Calibration Data (0=Low, 1=High)

2

REG__ Range Error

10

Line Frequency Status (0=60Hz, 1=50Hz)

3

EPROM Error

11

Calculation Status (0=No Calc., 1=Calc.)

4

Calibration Error

12

*Module Error Status (0=No Error, =Error)

5

UART Error

13

Done Status (0=Not Complete, 1=Comp.)

6

A/D Converter Error

14

Under Range (0=Not Under, 1=Under)

7

Reserved

15

Over Range (0= Not Over, 1=Over)

*

Lower bits 0-7 define module error status when = 1.

VCIM 19

Mode (MODE)..................................................................................................................... CWR

TIM 19

Mode (MODE)..................................................................................................................... CWR

RIM 20

Mode (MODE)..................................................................................................................... CWR

WRIM 20

Mode (MODE)..................................................................................................................... CWR
The mode of the block is determined by configuring and/or writing this attribute. Switching
mode is a reportable event. The manual mode causes the result quality to be good. If a cold
junction input module were to go bad, switching to manual would prevent bad data quality
from appearing on all thermocouple inputs that use the correction.

MAN

0

The block input is the previous result or the last written result.

AUTO

1

The block input is processed using the input module data.

RIM 19

Input Type (INTYPE) .........................................................................................................C – R

WRIM 19

Input Type (INTYPE) .........................................................................................................C – R
For RIM and WRIM block types only. The input type parameter further identifies the
resistance input module block as applying to one of the following.

RTD

0

Standard RTD linearization used.

NON-RTD

1

Resistance input or RTD not supported by software linearization
(piecewise table required).

VCIM 20

Input Type (INTYPE) .........................................................................................................C – R
For VCIM block types only. The input type parameter further identifies the voltage/current
input module block as applying to one of the following.

VOLTS

0

Input module is a 2001A Voltage Input Module. The input
range is set to ±10V dc by this selection.

MILLIVOLTS

1

Input module is a 2001A Voltage Input Module. The input
range is set to ±100mV dc by this selection. If the input is
from a temperature transmitter, configure thermocouple to
identify type.

PASSIVE CURRENT

2

Input module is a 2002A Current Input Module.

ACTIVE CURRENT

3

Input module is a 2012A Current Input Module with 2-wire
transmitter power.