Omega Vehicle Security Network Card TCIC User Manual

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TCIC User’s Manual  
1. Main Features  
2. Installation  
3. TCIC-Monitor  
3.1  
3.2  
Title  
Menus  
3.2.1  
3.2.1.1  
3.2.2  
3.2.2.1  
3.2.2.2  
3.2.2.3  
3.2.2.4  
3.2.2.5  
3.2.3  
3.2.3.1  
3.2.3.2  
3.2.3.3  
3.3  
File  
Exit  
Setup  
Card Settings  
TCIC-Monitor Settings  
Calibration and Defaults  
Card Address  
View All Settings (Read Only)  
Library  
Load  
Save  
Delete  
"Outputs" Box  
"Save to File" Command ('Start' or 'Stop')  
3.4  
3.5  
Channel Boxes  
3.5.1  
3.5.2  
3.5.3  
3.5.4  
3.5.5  
3.6  
Channel Title  
Digital Display  
Analog Display  
Channel Description  
"Show Graph" Command  
Cold Junction Temperature  
4. Command Set  
4.1  
4.2  
4.3  
4.4  
4.5  
Requesting Data  
Change Output Status  
Setpoint Configuration  
Sample Program  
Troubleshooting  
5. Multi-Card System  
6. USB, RS232 & RS485  
7. Specifications  
8. LabVIEW Sample  
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1. Main Features  
Very High Speed & High Resolution.  
Supports up to 8 channels (differential inputs).  
Each channel can be set for a thermocouple reading or  
for a voltage (millivolt) reading.  
Internal A/D resolution: 24 bit (not all are used).  
Sampling rate: 400 Hz (50 Hz for each channel).  
Single opto-isolated output per channel which can be  
used as a set-point (alarm etc.) or as a general purpose  
output.  
Conversion tables are on board to enable stand-alone  
operation.  
Reading is in °F, °C or mV.  
CJC (Cold Junction Compensation) built on board.  
Each channel supports the most popular families of  
thermocouples (E, J, K, R, S, T) or any indefinite voltage  
source in the range -500mV -> +500mV.  
USB as a standard method of communication.  
USB + RS485 and RS232 (option).  
Multiple boards may be connected via USB or the  
optional RS485.  
On board high accuracy reference voltage for easy  
calibration.  
No need for external power supply when used with USB.  
Includes Windows software for initial setup and also a  
Smart data logger package for monitoring & collecting  
readings in high speed – with graphic mode display.  
Communication  
Two types of drivers are available:  
The direct driver provides access via a DLL supplying  
functions to directly control the device.  
The VCP (Virtual COM Port) driver would make the TCIC  
appear as a spare COM port on the PC, e.g. COM3.  
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Setpoints  
Each channel may be defined as a setpoint, which means that  
the corresponding output will turn on upon crossing some level.  
The setpoint user-defined selection also controls the direction of  
the ‘setpoint indication’; that is, turn the output on upon crossing  
the limit either upwards or downwards. In other words, the  
direction of the trigger is user-defined. Likewise, the user may  
define a hysteresis behavior, e.g., the output turns on when the  
temperature goes above some limit and only goes off again when  
the temperature falls below another (lower) limit, thus eliminating  
undesirable fluctuations in the status of the output.  
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2. Installation  
(The following description refers to Windows XP. Obviously, on  
another operating system it might be different.)  
1. Make sure that all package files have been copied – and  
unzipped if necessary – to your hard disk.  
2. Two types of drivers are available. Install the one that  
meets best your requirements. Note that only one  
driver may be installed at the same time. That is, if  
for some reason you want to switch to the other driver,  
first uninstall the retired one.  
The direct driver provides access via a DLL supplying  
functions to directly control the device.  
The VCP (Virtual COM Port) driver would make the  
TCIC appear as a spare COM port on the PC, e.g.  
COM3.  
Consider which driver is best for you and proceed  
accordingly to step 3 or 4.  
3. Installing the Direct DLL Driver:  
3.1 If the VCP (Virtual COM Port) Driver is installed,  
uninstall it as follows:  
Click: Start – Control Panel – Add or Remove Programs –  
FTDI USB Serial Converter Drivers – Change/Remove  
Disconnect all TCIC boards from the USB port and click  
Continue…  
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Click Finish.  
3.2 Disconnect or disable the internet communication if  
such exists. The reason for that is that there are cases  
where the installation procedure automatically  
communicates with manufacturer’s site, which might lead  
to wrong operation.  
3.3 Connect the TCIC card to your PC.  
3.4 The ‘Found New Hardware Wizard’ appears.  
Select the last option like this:  
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3.5 Press Next and select the second option:  
3.6 Press Next and browse to the Direct DLL driver folder:  
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3.7 Click Next…  
3.8 Press Continue Anyway…  
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Click Finish – that’s it!  
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4. Installing the VCP (Virtual COM Port) Driver:  
4.1 If the Direct DLL Driver is installed, uninstall it as  
follows:  
Click: Start – Control Panel – Add or Remove Programs –  
FTDI FTD2XX USB Drivers – Change/Remove  
Disconnect all TCIC boards from the USB port and click  
Continue…  
Click Finish.  
4.2 Connect the TCIC card to your PC.  
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4.3 The ‘Found New Hardware Wizard’ appears.  
Select the last option like this:  
4.4 Press Next and select the second option:  
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4.5 Press Next and browse to the VCP driver folder:  
4.6 Click Next…  
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Click  
‘Finish’ – that’s it!  
Notes  
1. It might occur that the wizard will return to step 4.3, requiring to  
repeat the process. This is normal, just repeat steps 4.3-4.6.  
2. The package includes also an RS232 terminal found on the  
Web, called Termite, through which the TCIC may be  
communicated when the VCP driver is installed.  
Termite (http://www.compuphase.com/software_termite.htm) is freeware, yet it  
is easy to use and easy to configure.  
TCIC communication parameters are:  
Baud Rate: 115,200; Data: 8 bits; Parity: None; Stop Bits: 1.  
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3. TCIC-Monitor  
The TCIC-Monitor utility is an initial setup tool and a smart data  
logger package for monitoring & collecting readings in high  
speed, including graphic mode display. The TCIC-Monitor works  
with both driver types (refer to section 1 - Main Features /  
Communication). It detects which driver type (direct or VCP) is  
installed and communicates with the card(s) using that driver  
(the type of the driver detected is reported in the title). More  
than one TCIC board may be connected to the PC while using  
the TCIC-Monitor; the user should select the required board. It  
is legitimate to run the TCIC-Monitor twice (or more) selecting  
each time another free board. Likewise, when no free board is  
detected, the TCIC-Monitor lets the user to work in ‘Demo’  
mode.  
Note: The TCIC-Monitor was developed under ‘.NET’ (dot NET), so  
it requires the ‘dotnet framework’ V1.1.4322 in order to run. The  
setup for this ‘dotnet framework’ is available free via Microsoft site;  
however, to facilitate the process, it is included in the attached  
CD-ROM (named dotnetfxV1.1.4322.exe).  
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The markings in the screenshot below show the section where each  
part of the display is described.  
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3.1 Title  
This main title shows the versions of the TCIC-Monitor and of the  
card. For example, the title in the above screenshot indicates that  
the version of the TCIC-Monitor is 1.03, while card’s version is 2.01.  
3.2 Menus  
The menus enable various operations, as described below.  
3.2.1 File  
3.2.1.1 Exit  
Leaves the TCIC-Monitor program.  
3.2.2 Setup  
3.2.2.1 Card Settings  
Adjusts the settings that reside in the card (on its non-volatile  
memory).  
The settings at a glance:  
Common Setting  
Temperature Unit:  
Channel Settings  
°C / °F  
Channel Name:  
Input Type:  
... (view only)  
None / TC-E / TC-J / TC-K /  
TC-R / TC-S / TC-T / mV  
SP-Auto / SP-Latch / Manual  
Output Mode:  
Set Points Switch  
On:  
...  
...  
Off:  
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The settings in detail:  
Common Setting  
The following is a common setting for all the channels:  
Temperature Unit:  
°C / °F  
Selects the temperature unit for all channels whose ‘Input  
Type’ is defined as a thermocouple, i.e., TC-E, TC-J, TC-K, TC-  
R, TC-S, or TC-T. In other words, this setting has no effect on  
channels whose ‘Input Type’ is mV (or None).  
Channel Settings  
The following are individual settings for each channel:  
Channel Name: ... (view only)  
The user may assign a name to each channel.  
This ‘Channel Name’ is actually a part of the ‘TCIC-Monitor  
Settings’ (section 3.2.2.2); it does not reside in the card.  
Though, for convenience's sake, the ‘Channel Name’ is shown  
in the ‘Card Settings’ display, but restricted to ‘view only’.  
Input Type:  
None / TC-E / TC-J / TC-K /  
TC-R / TC-S / TC-T / mV  
Each channel may be referred to as one of three main types:  
* Channel not in use (‘None’).  
In this case channel’s description (section 3.5.4) will show  
‘Not in Use’ regardless of the input coming in that channel.  
* Channel represents a thermocouple whose type is one of  
the six supported ones (E, J, K, R, S, or T). The card  
converts the sampled voltage to degrees (°C or °F), taking  
into account the cold junction temperature. So, the  
readings passed by the card are in degrees (°C or °F);  
the TCIC-Monitor shows these readings (in the displays  
and in the graph) in degrees either. In case the card  
detects that no thermocouple is connected, it reports  
it to the PC, so the TCIC-Monitor displays ‘OPEN’  
in that case.  
* Channel represents an indefinite source of voltage, to be  
reported in millivolts (mV), not in degrees. In this case,  
there is no ‘OPEN’ indication when a channel is  
disconnected.  
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Output Mode:  
SP-Auto / SP-Latch / Manual  
This is actually ‘output x’ setting rather than ‘channel x’  
setting. This setting defines the nature of output x  
(x=1,2,...,8):  
Roughly speaking, output x may be either a ‘setpoint  
indicator’ of channel x, or a manual output with no  
relation to channel x (nor any other channel).  
‘Manual output’ simply means that the output can be turned  
on or off directly by the host PC by simple software commands.  
The ‘setpoint indicator’ definition, however, is more  
complicated:  
The main idea is that when output x is defined as a ‘setpoint  
indicator’ (SP-Auto or SP-Latch), it will go high (on) when  
input x crosses the ‘Set Points Switch / On’ limit. Now, there  
are still some points to clarify:  
The user may define two characteristics of the setpoint  
indication:  
* How will the indication stop (i.e., output goes ‘off’)?  
Automatically or manually?  
٠
 Selecting ‘SP-Auto’ means automatic stop of the  
indication. The ‘turn off’ operation will occur when input x  
crosses the ‘Set Points Switch/Off’ limit. That mechanism  
enables the user to define a hysteresis eliminating  
undesirable fluctuations in the status of the output.  
٠
 Selecting ‘SP-Latch’ means that once there is ‘setpoint  
indication’ (output is on), the output will stay on until  
manually turned off by the TCIC-Monitor.  
* The direction of temperature change that will trigger the  
indication: Will the indication be supplied upon crossing  
the ‘On’ limit upwards or downwards? This  
characteristic is controlled by the ‘Set Points Switch/Off’  
limit, as described below.  
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Set Points Switch  
On: ...  
Defines the limit that upon its crossing output x will go  
high (on) signaling a ‘setpoint indication’.  
Off:  
...  
1. Defines the direction of temperature change that will  
trigger the indication:  
Off < On means indication upon crossing the On limit  
upwards.  
Off > On means indication upon crossing the On limit  
downwards.  
2. When Output Mode = ‘SP-Auto’, the Off limit plays one  
more role:  
It defines the hysteresis, i.e., the limit where the output  
will go low (off) again.  
To make the above description more comprehensible,  
some examples follow:  
Example 1:  
Output Mode = ‘SP-Auto’, ‘On’ = 100°, ‘Off’ = 90°.  
The output will go high (on) when the temperature rises  
from 99° to 100°, and back low (off) upon falling from  
91° to 90°.  
Example 2:  
Output Mode = ‘SP-Auto’, ‘On’ = 100°, ‘Off’ = 110°.  
The output will go high (on) when the temperature falls  
from 101° to 100°, and back low (off) upon rising from  
109° to 110°.  
Example 3:  
Output Mode = ‘SP-Latch’, ‘On’ = 100°, ‘Off’ = 90°.  
The output will go high (on) when the temperature rises  
from 99° to 100°, and stay high (regardless of any  
temperature change) until manually turned off. Note that  
– as Output Mode = ‘SP-Latch’ – the only meaning of  
‘Off’ = 90° is to set the direction, as 90° < 100°.  
Specifying ‘Off’ = 80° will give the same effect!  
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Example 4:  
Output Mode = ‘SP-Latch’, ‘On’ = 100°, ‘Off’ = 110°.  
The output will go high (on) when the temperature falls  
from 101° to 100°, and stay high (regardless of any  
temperature change) until manually turned off. Note that  
– as Output Mode = ‘SP-Latch’ – the only meaning of  
‘Off’ = 110° is to set the direction, as 110° > 100°.  
Specifying ‘Off’ = 120° will give the same effect!  
3.2.2.2 TCIC-Monitor Settings  
Adjusts the settings that reside in the PC (i.e., in a file).  
The settings at a glance:  
Common Settings  
Temperature Unit:  
°C / °F (view only)  
Filter:  
Sampling Rate:  
Off/2/4/8/16/32/64/128/256  
Max. / 0.5 Sec. / ... seconds  
Channel Settings  
Channel Name:  
Input Limits  
Min.:  
...  
...  
...  
Max.:  
The settings in detail:  
Common Settings  
The following are common settings for all the channels:  
Temperature Unit: °C / °F (view only)  
The user may define system’s Temperature Unit.  
This ‘Temperature Unit’ is actually a part of the ‘Card  
Settings’ (section 3.2.2.1); it does not reside in the PC.  
Though, for convenience's sake, the ‘Temperature Unit’ is  
shown in the ‘TCIC-Monitor Settings’ display, but restricted  
to ‘view only’.  
Filter:  
Off/2/4/8/16/32/64/128/256  
The Filter defines the filtering degree of the readings. A  
higher filter leads to more stable readings display, but slower  
response to changes; a lower filter will give the opposite:  
faster response to changes, but less stable readings display.  
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Sampling Rate:  
Max. / 0.5 Sec. / ... seconds  
The Sampling Rate defines the frequency in which readings  
are refreshed on the display.  
There are three options:  
Max. –  
0.5 Sec. –  
Maximal rate that the card can support.  
One refresh each 0.5 sec.  
... seconds – One refresh each x seconds, where x is  
user-defined. x should be at least 0.5 and  
at most 1000.  
Channel Settings  
The following are individual settings for each channel:  
Channel Name: ...  
The user may assign a name to each channel.  
This name is displayed as ‘Channel Title’ (refer to  
section 3.5.1), giving the user more control on his  
system.  
Input Limits  
The Input Limits (Min. & Max.) define the expected  
temperature (or mV) range. The low & high limits on the  
analog display and on graph’s vertical axis (temp.) will be  
based on Min. & Max. (usually, the range of the analog  
display will be somewhat wider).  
Min.:  
Minimal expected temperature.  
Max.: ...  
...  
Maximal expected temperature.  
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3.2.2.3 Calibration and Defaults  
Change Calibration  
The TCIC is factory programmed with the value of the on board  
reference voltage (1.25V). However, this default 1.25V value may be  
re-defined in the range 1.2375V to 1.2625V, that is 1.25V ±1%. In  
order to find out the voltage, use a high resolution DVM (at least 5.5  
digits), and measure between ‘GND’ and ‘COM’ in the screw terminal  
(CONN1 or CONN2). Click ‘Change Calibration’ and enter your  
measured new value.  
Reset to Factory Default Values  
You may return the card to its initial factory settings:  
All channels set to voltage reading (Input Type = mV).  
Temperature Unit: ºC.  
All Output Modes: Manual.  
All Setpoints (both ‘switch on’ and ‘switch off’): 0.  
Reference Voltage: 1.25V.  
Card Filter Level: Standard.  
3.2.2.4 Card Address  
This display is meaningful only in case of a multi-card system (see  
section 5). The current card address is displayed. Likewise, the card  
can be re-configured to another address. For more details refer to  
the “Configuring a Card Address” paragraph in section 5.  
3.2.2.5 View All Settings (Read Only)  
The ‘View All Settings’ display shows – in ‘view only’ mode – the  
following values:  
Card Settings (section 3.2.2.1)  
TCIC-Monitor Settings (section 3.2.2.2)  
Calibration reference voltage (section 3.2.2.3)  
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3.2.3 Library  
There is a ‘settings library’ on the PC disk in which all settings may  
be stored - both Card Settings (section 3.2.2.1) and TCIC-Monitor  
Settings (section 3.2.2.2). The library files reside in the subfolder  
TCIC_Lib under the installation folder, for example:  
C:\Program Files\IMS\TCIC-MONITOR\TCIC_Lib  
3.2.3.1 Load  
Loads a setting set from the library.  
Once you want the loaded set to take effect, click the ‘Save Settings  
& Exit’ button. As long as you don’t click that button, the previous  
set remains in effect.  
3.2.3.2 Save  
Saves the current setting set into the library.  
3.2.3.3 Delete  
Deletes a setting set from the library.  
3.3 "Outputs" Box  
This box both describes the status of the 8 outputs, and enables to  
manually change their status. Just click to invert output status. Note  
that an output is sometimes accessible for manual change and  
sometimes not, depending on the selection of Output Mode and the  
actual value of the output:  
* Output Mode = ‘Manual’: Output is accessible for manual change.  
* Output Mode = ‘SP-Auto’: Output is not accessible for manual change.  
* Output Mode = ‘SP-Latch’: Output is accessible only in order to turn it off.  
In other words: The output can be turned on  
only by the card, and turned off only manually.  
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3.4 "Save to File" Command ('Start' or 'Stop')  
The "Save to File" function enables recording card’s readings in a  
text file.  
Upon clicking "Start Save to File" the program suggests an  
automatic file name, based on the current time & date. Either  
accept this suggested name, or change it; then click ‘Save’. The  
recording operation goes on until you press the same button again  
("Stop Save to File"), or exit the TCIC-Monitor.  
The readings files reside in the subfolder TCIC_Readings under the  
installation folder, for example:  
C:\Program Files\IMS\TCIC-MONITOR\TCIC_Readings  
3.5 Channel Boxes  
3.5.1 Channel Title  
Displays the Channel Name (refer to section 3.2.2.2).  
3.5.2 Digital Display  
Displays current channel’s reading.  
Reading’s unit is ºC, ºF or mV, according to user’s setting  
of Temperature Unit and the specific channel’s Input Type  
(see section 3.2.2.1).  
3.5.3 Analog Display  
Displays the same reading as in the Digital Display, in an analog  
form. The limits of the meter are based on the Input Limits (refer  
to section 3.2.2.2).  
3.5.4 Channel Description  
Displays card’s Channel Settings (section 3.2.2.1).  
3.5.5 "Show Graph" Command  
Displays current channel in a graph. Graph’s display may be resized  
dragging its edge or corner, as customary in Windows, or magnified  
using the Maximize button.  
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3.6 Cold Junction Temperature  
Displays the temperature of the cold junction, which is essential for  
the CJC (Cold Junction Compensation). The value of the cold junction  
temperature is meaningful only when the Input Type is some  
thermocouple; i.e., it’s irrelevant in case the Input Type is mV (or, of  
course, None).  
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4. Command Set  
The communication with the TCIC is via USB (standard), or RS232  
or RS485 (optional).  
Notes  
1. After the TCIC has been powered-on, user application  
software should send a single null (0x00) character to  
the TCIC, prior to commencing regular communications.  
2. There is one more command (card selection in a multi-card  
system), described in the next section (section 5).  
4.1 Requesting Data  
‘>’ The TCIC returns a string containing the 8 actual channel  
values, each followed by a tab (0x09). The end of the string  
is followed by CR/LF. Each value is padded to have a fixed  
length of 8 characters, so the string has a fixed length of 72  
characters (excluding the CR/LF).  
That is, the contents of the string is:  
Channel 1 reading + tab character  
Channel 2 reading + tab character  
Channel 3 reading + tab character  
Channel 4 reading + tab character  
Channel 5 reading + tab character  
Channel 6 reading + tab character  
Channel 7 reading + tab character  
Channel 8 reading + tab character  
CR/LF  
The channel values may represent ºC, ºF or millivolts,  
depending on the Card Settings selection.  
In case a channel has been defined in the Card Settings as  
a ‘thermocouple’ source (Input Type is not mV) and the card  
recognises that the channel is disconnected, that channel  
value will be ‘9999.000’, indicating an ‘open’ condition.  
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‘T’  
Returns the board (Cold Junction) in ºC or ºF, whatever was  
selected in Card settings, plus CR/LF. The value is padded to  
have a fixed length of 8 characters, so the string has a fixed  
length of 8 characters (excluding the CR/LF).  
‘O’ (upper case letter O) The TCIC returns a string of the form  
11110000 plus CR/LF, indicating the actual status of the  
output switches 1-8. ‘0’ = off, ‘1’ = on.  
‘<’ The TCIC returns a string that includes the following items:  
1. The response on the ‘>’ command (excluding the CR/LF).  
2. The response on the ‘T’ command (excluding the CR/LF).  
3. The response on the ‘O’ command (excluding the CR/LF).  
4. Card Filter level.  
5. CR/LF.  
That is, the contents of the string is:  
Channel 1 reading + tab character  
Channel 2 reading + tab character  
Channel 3 reading + tab character  
Channel 4 reading + tab character  
Channel 5 reading + tab character  
Channel 6 reading + tab character  
Channel 7 reading + tab character  
Channel 8 reading + tab character  
Cold Junction reading + tab character  
Output status – eight characters either ‘0’ (off) or ‘1’ (on)  
Card Filter level – one character either ‘0’ (standard) or ‘1’ (high)  
CR/LF  
As each reading (both channel and cold junction) is padded to  
have a fixed length of 8 characters, the whole string has a  
fixed length of 90 characters (excluding the CR/LF).  
‘V’  
TCIC returns version number information, plus CR/LF.  
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4.2 Change Output Status  
The one-character ‘a’ command turns output #1 off.  
The one-character ‘A’ command turns output #1 on.  
Similarly, the one-character ‘b’ through ‘h’ and ‘B’ through ‘H’  
commands turn the other channels (2-8) off or on, respectively.  
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4.3 Setpoint Configuration  
The ‘switch on’ & ‘switch off’ limits define the points where the  
output will go on and, possibly, back off. The relation between the  
‘switch on’ limit and the ‘switch off’ limit defines the direction of the  
mechanism:  
’Switch on’ limit > ‘Switch off’ limit: trigger on upwards change  
When current reading is larger than 'switch on' limit, output goes  
on.  
٠
 If the channel is defined as Latch’, the output remains on until  
turned off manually.  
٠
 If the channel is defined as Auto’, the output goes back off when  
reading is smaller then ‘switch off’ limit.  
’Switch on’ limit < ‘Switch off’ limit: trigger on downwards change  
When current reading is smaller than 'switch on' limit, output goes  
on.  
٠
 If the channel is defined as ‘Latch’, the output remains on until  
turned off manually.  
٠
 If the channel is defined as ‘Auto’, the output goes back off when  
reading is larger then ‘switch off’ limit.  
“Switch On” Limit  
‘$A’ or ‘$B’ through ‘$H’  
Sets ‘switch on’ limit for the specified channel (1-8).  
PC must send channel’s letter and a string representing a  
floating point value in the range -2000.0 to +2000.0 followed  
by CR.  
E.g., to set ‘switch on’ limit for channel 3 to 145.2 the PC  
would send “$C145.2” with CR. Note, the ‘C’ is the channel  
selection.  
If the string is accepted as valid the TCIC returns “OK” with  
CR/LF and stores the value in its non-volatile memory.  
Else the TCIC returns “ERR” with CR/LF and does not store  
the value.  
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‘S’  
The TCIC returns a string containing actual 8 ‘switch on’  
limits, each followed by a tab (0x09). The end of the string  
is followed by CR/LF. Each value is padded to have a fixed  
length of 8 characters, so the string has a fixed length of 72  
characters (excluding the CR/LF).  
“Switch Off” Limit  
‘$a’ or ‘$b’ through ‘$h’  
Sets the ‘switch off’ limit for the specified channel (1-8).  
PC must send channel’s letter and a string representing a  
floating point value in the range -2000.0 to +2000.0 followed  
by CR.  
E.g., to set ‘switch off’ limit for channel 3 to 145.2 the PC  
would send “$c145.2” with CR. Note, the ‘c’ is the channel  
selection.  
If the string is accepted as valid the TCIC returns “OK” with  
CR/LF and stores the value in its non-volatile memory.  
Else the TCIC returns “ERR” with CR/LF and does not store  
the value.  
‘s’  
The TCIC returns a string containing actual 8 ‘switch off’  
limits, each followed by a tab (0x09). The end of the string  
is followed by CR/LF. Each value is padded to have a fixed  
length of 8 characters, so the string has a fixed length of 72  
characters (excluding the CR/LF).  
For more details and examples refer to section 3.2.2.1  
(Card Settings), parameters Output Mode and Set Points Switch.  
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4.4 Sample Program  
The sample program is an improved version of Microsoft’s example  
“Using the Comm Port”. This is a basic VB-Net program that clearly  
shows how to communicate with the card. The sample program  
works with both driver types (refer to section 1 - Main Features /  
Communication). It detects which driver type (direct or VCP) is  
installed and communicates with the card using that driver (the  
type of the driver detected is reported in the title). More than one  
TCIC board may be connected to the PC while using the sample  
program; however, the sample program communicates only with  
one board – the last one detected. Upon running the program,  
press the ‘Check for Ports’ button and then the ‘Check for TCIC’  
button. The box below this button should show something like  
‘Using TCIC on COM7’ or ‘Using TCIC on USB1’.  
Now, to send a command to the TCIC:  
1. Type the required command in the ‘User Command’ Box.  
2. Select the proper C/R mode:  
* One or two character commands do not require C/R,  
so ‘C/R’ should be unchecked.  
* Three or more character commands do require C/R,  
so ‘C/R’ should be checked.  
3. Click the ‘Send User Command’ button, or press <Enter>.  
Card’s response is shown in the frame on the right side.  
Note  
The sample program supports also a card that is configured to a  
non-default (i.e., non-‘a’) address (refer to section 5). Its policy is  
the same as with the TCIC-Monitor, that is:  
* Upon initialization, card ‘a’ is selected (‘:a’), so, no matter what is  
the current card’s address, it will be selected for communication.  
Note that this implies that while using the sample program only  
one board may be connected to the same port even though  
RS485 is used.  
* Upon termination, if card’s address is other than ‘a’, it will be  
deselected. This ensures that a card will not remain in ‘selected’  
mode and then connected to RS485, causing a situation of more  
than one card selected in the same time. In other words, user’s  
application should be the only source that selects a card.  
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4.5 Troubleshooting  
Q. I can communicate with the TCIC when it is located in COM1  
through COM9, but when it is in COM10 or more, my application  
does not work. The TCIC-Monitor, however, works fine.  
A. Opening COM port 10 or above is done differently:  
Prefix "\\.\" to its name.  
For example:  
In C:  
CreateFile( "\\\\.\\COM10",...)  
In VB.Net:  
' Creates a COM Port stream handle  
Dim COM_Name As String = "COM" & miPort.ToString  
If miPort > 9 Then  
COM_Name = "\\.\COM" & miPort.ToString  
End If  
mhRS = CreateFile(COM_Name, _  
GENERIC_READ Or GENERIC_WRITE, 0, 0, _  
OPEN_EXISTING, iMode, 0)  
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5. Multi-Card System  
This section is relevant only for the TCIC with the RS485  
communication option.  
Introduction  
The TCIC’s RS485 communication option supports multi-card  
systems. In order to utilize this feature, two TCIC operations are  
required:  
Card configuration  
Card selection  
Card configuration – carried out by the TCIC-Monitor utility (see  
section 3.2.2.4) – sets a card’s address to one of 26 options. This  
address is saved in the card’s non-volatile memory ensuring that  
once a card has been configured, the address is retained even if the  
card is powered off.  
Card selection – carried out by user’s application – activates the  
communication with a card that has a specific address, and de-  
activates (‘de-selects’) the communication with all other cards in the  
system. Once a card is selected, regular communication can take  
place, i.e. the card will respond to instructions from the main  
command set. A selection lasts until an alternative address selection  
is applied, or power is off. The Status LED (LED2) reflects whether  
a card is selected or not: LED2 off means ‘card not selected’, LED2  
on means ‘card selected’.  
Addresses  
There are 26 potential card addresses, denoted by the letters a,…,z  
(lower case). Address ‘a’, the factory default, is unique in the sense  
that its selection activates the card connected regardless of its  
address configuration. Obviously, address ‘a’ should be used only  
when a single card is connected. Otherwise all connected cards will  
respond causing an RS485 bus conflict.  
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One Card System  
When a system includes only one card, neither configuration nor  
selection is required, as the card is factory defaulted to address ‘a’.  
Indeed, if a card has been configured to some non-‘a’ address and  
later it is required as a single card, you may re-configure it to  
address ‘a’, eliminating the need for the selection function in your  
application. This is the only case that a card is configured to  
address ‘a’.  
Configuring a Card Address  
Configuring a card address is carried out by the TCIC-Monitor  
utility:  
Connect the card to be configured to the USB port.  
In the TCIC-Monitor utility click Setup/Card Address and  
choose the required address. Be sure to choose a free  
and non-‘a’ address; that is, an address that no other  
card is configured to, but not ‘a’.  
Exit the TCIC-Monitor utility.  
The card is now ready to be wired into an RS485 network.  
When it is powered on, it will not be selected until a  
selection command with the correct address is sent by the  
application.  
It is the user’s responsibility to make sure that each  
card is configured to a unique, non-‘a’, address.  
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Communication Protocol  
There are 26 allowable addresses, referenced by the lower case  
letters a-z.  
The address ‘a’ is a special address: every board will respond to this  
address. In single board RS485, RS232 and USB applications, the  
board will always be given the address ‘a’, which is also the factory  
set default.  
Selecting the board  
To SELECT a TCIC board, the ‘:’ command is used, followed by the  
address character. (A CR character is not required).  
E.g., sending “:e” will SELECT the board that has the address ‘e’.  
Note, the TCIC does not send any answer on a ‘:’ command.  
Once selected, a TCIC board will respond to the main command set  
and the STATUS LED (LED2) will be illuminated.  
De-Selecting the board  
To DE-SELECT a TCIC board, simply transmit the ‘:’ command with  
an alternative address.  
For example, suppose there are 3 TCIC boards on the RS485 bus,  
with addresses b, c & d:  
To access board ‘b’ transmit “:b”  
(this will SELECT board ‘b’ and DE-SELECT boards ‘c’ & ‘d’)  
To access board ‘c’ transmit “:c”  
(this will SELECT board ‘c’ and DE-SELECT boards ‘b’ & ‘d’)  
To access board ‘d’ transmit “:d”  
(this will SELECT board ‘d’ and DE-SELECT boards ‘b’ & ‘c’)  
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6. USB, RS232 & RS485  
In addition to USB, The TCIC has an option for both full-duplex  
RS232 and half-duplex RS485 interfaces. These are brought out on  
CONN6, a 9 way ‘D’ type connector. The pin-out is as follows:  
CONN6 PIN  
FUNCTION  
1
2
3
4
5
6
7
8
9
RS485-  
RS232 TX (out of TCIC)  
RS232 RX (into TCIC)  
NC  
SIGNAL GROUND  
RS485+  
NC  
NC  
NC  
I.e., for RS232 use pins 2,3 & 5 and for RS485 use pins 1,5 & 6  
For RS232 connection, a standard direct (straight through) wired 9D  
M-F cable can be used for direct connection to a standard 9 way ‘D’  
type PC COM port.  
RS485 line termination – placing a jumper across the two leftmost  
pins of LK2 puts a 120 Ohm (ac coupled) impedance across the  
RS485 data lines. This should be used in single TCIC RS485  
applications. In applications where multiple TCIC boards reside on  
one RS485 bus, the termination impedance should only be added  
on the last board on the bus.  
COMMUNICATION PARAMETERS  
For both the full-duplex RS232 and half-duplex RS485 interfaces the  
communications parameters are fixed as follows:  
Baud Rate 115,200 baud  
Data  
Parity  
8 bits  
None  
Stop Bits 1  
This is generally referred to as “8,N,1”.  
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POWER SUPPLY  
Using an external power supply is optional on USB* applications but  
essential for RS232 and RS485 applications.  
When used, the external power supply should be  
connected to the 5V connector (CONN3).  
Near this 5V connector there is the 'LK1' jumper,  
and rightwards there is the LK5 jumper:  
* Option 1: 5V from the USB port  
Put the 'LK1' & ‘LK5’ jumpers in the 'USB' side.  
* Option 2: External 5V supply  
Put the ‘LK1’ jumper in the 'DC JACK' side.  
Put the ‘LK5’ jumper in the 'NOT USB' side.  
The external supply should be 5V DC (±5%) only.  
* Using USB hubs  
The TCIC may be connected to a USB hub provided  
that:  
Either  
1. The USB hub is externally powered such that the USB ports  
of the hub meet the standard USB power specification.  
In this case use option 1.  
Or  
2. A bus powered USB hub (with no external supply to the  
hub) is used but the TCIC takes its power from the TCIC  
DC jack. In this case use option 2.  
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7. Specifications  
7.1 Power Supply  
5.0 VDC 5% from either external supply via DC jack or from USB Bus,  
jumper selectable.  
7.2 Communication Ports  
7.2.1 USB  
Either USB bus powered or locally powered.  
Compatible with USB 2.0 and USB 1.1.  
Up to 921,600 baud using either direct or VCP (Virtual COM Port) driver.  
7.2.2 RS232/RS485 (option)  
Available on a 9 way D connector.  
RS232 allows connection to PC with “straight through” 9D-9D lead cable  
RS485: Half duplex (2 wire)  
Jumper option to terminate line with 120 Ohms  
Up to 25 TCIC boards may be connected to one RS485 bus  
Factory set baud rate of 115,200 baud  
7.3 Analog Inputs  
8 fully differential inputs for connection to floating thermocouples or floating millivolt sources.  
Full scale differential input is 500millivolts. Open thermocouple detection on each channel.  
Connection is via 2 off, 10 way screw terminal connectors. 3.81 mm pitch  
Bias current:  
120 nA  
Maximum allowable input voltage:  
Common mode input range:  
10 Volts relative to the GND terminal  
+0.25V to +4.0V relative to the TCIC GND terminal.  
ADC Internal Resolution:  
ADC Noise free resolution:  
24 bits.  
Noise of 1 microvolt rms,  
giving ENOB = 20 bits on 500 mV  
or ENOB = 15.9 bits for a type K thermocouple  
ADC Sampling rate:  
Millivolt accuracy:  
400 Hz (50 Hz for each channel)  
Uncalibrated 0.05%  
Gain drift 5ppm/˚C typical, 10ppm/˚C maximum  
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7.4 Thermocouple Types  
The following thermocouple types and temperature ranges are supported by onboard ITS-90  
polynomial conversion functions:  
Thermocouple Type  
Range ˚C  
Accuracy ˚C *  
Resolution ˚C  
based on 1uVrms  
noise  
J
-210 to 1200  
-200 to 1372  
-200 to 1000  
-50 to 1768  
-50 to 1768  
-200 to 400  
1.5  
1.5  
1.5  
2.0  
2.0  
1.5  
0.019  
0.024  
0.015  
0.125  
0.143  
0.022  
K
E
R
S
T
*Total accuracy, allowing for the effects of millivolt measurement accuracy, cold junction  
compensation and conversion to temperature using the onboard conversion functions.  
7.5 Switch Outputs  
Connection is via a 10 way screw terminal connector. 3.81 mm pitch  
8 optically isolated MOSFET switches, each with an indicator LED.  
External I/O supply required in range 10-30V  
Output rating max 0.25A per output.  
WARNING  
The TCIC inputs are not electrically isolated from the TCIC  
USB, RS232, RS485 or Ethernet ports and hence any attached  
PC, PLC etc.  
Sensor inputs must never be attached to hazardous voltages.  
The channel input voltages, relative to TCIC GND, must never  
exceed 10 Volts.  
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8. LabVIEW Sample  
The LabVIEW sample was created with LabVIEW 6.1 using the VCP  
(Virtual COM Port) driver.  
Figure #1 shows the screen that the LabVIEW sample produces,  
that is, virtual thermometers of all the eight channels, and a graph  
of one of these channels (user selectable).  
Here is an explanation of the LabVIEW sample & how it might be used:  
The included sample LabVIEW ‘vi’ file enables users of LabVIEW to  
quickly start acquiring data from the TCIC.  
If a LabVIEW application is to be used simply to acquire data from the  
TCIC, then it is recommended that the TCIC-Monitor is used to configure  
the TCIC prior to communication with LabVIEW. For the LabVIEW  
sample, the TCIC-Monitor should be used to setup the TCIC for 8  
thermocouple (i.e., not mV) inputs.  
The LabVIEW sample is setup for serial communication with the TCIC.  
This can be either via USB (using Virtual COM Port drivers supplied with  
the TCIC) or through direct RS232 or RS485 COM ports.  
If USB communication is being used, then the TCIC USB drivers must be  
installed prior to using LabVIEW; also the TCIC must be attached and  
powered before LabVIEW is started, otherwise LabVIEW will not see the  
USB virtual COM port.  
The sample ‘vi’ requires that the correct COM port is selected prior to  
running the application: use NI’s Measurement and Automation Explorer  
(often abbreviated to “MAX”) to search for attached devices. This utility  
is available when the LabVIEW system is present. Figure #2 is a  
screenshot of MAX, where the TCIC appears as COM7, as it does on the  
LabVIEW sample screen also (refer to the top of figure #1).  
The LabVIEW sample is provided ‘as is’ and is only intended as a starting  
point to developing TCIC LabVIEW applications. The other parts of the  
User’s Manual (particularly section 4) provide a more comprehensive  
guide to the features and command set of the TCIC that may be  
accessed by a user’s application.  
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Figure #1 – output screen of the LabVIEW sample  
Figure #2 – LabVIEW’s MAX (Measurement and Automation Explorer)  
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