Honeywell Computer Monitor RDD100 User Manual

Honeywell Pressure Sensor Products  
RDD100 Remote Digital  
Display User Manual  
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RDD100 User Guide  
1
INTRODUCTION  
Product Overview  
1.1  
The Honeywell Remote Digital Display, RDD100, produces a digital display of measured pressures and is  
designed for use with RS-232 versions of Honeywell HPA, HPB, PPT, PPTE, and PPTR pressure transducers.  
The 6-digit display features 0.56 inch-tall LED characters that are readable in bright sunlight. The RDD100 is a  
digital-input instrument, accepting a continuous stream of digital data transmitted in RS-232 format from the  
transducer. The transducer may be installed at the source of the pressure being measured; a cable up to 50 feet  
in length may separate the transducer from the RDD100. A wall-mounted AC-to-DC power supply, which powers  
both the RDD100 and the transducer, is supplied with the display. Alternatively, a user may provide 12V ± 3V DC  
from a system power supply.  
The RDD100 has a 9-pin “D” connector mounted on the rear panel to connect to a personal computer. The  
computer can perform data collection while the RDD100 is continuously displaying readings. The computer can  
also be used to send commands to the transducer (two-way communications).  
The RDD100 is housed in a compact enclosure, measuring approximately 3.8 x 2 x 4.4 inches, W x H x D. The  
instrument may be used on a tabletop or can be easily installed in a panel using the supplied mounting hardware.  
1.2  
Pressure Transducer Description  
The RDD100 receives pressure readings from an RS-232, Honeywell pressure transducer (HPA, HPB, PPT,  
PPTE and PPTR). Accuracy of the displayed pressure reading is determined solely by the accuracy of the  
transducer. Typical PPT accuracy, for example, is ±0.05% of full scale (FS). Digital output resolutions up to  
0.0011% FS are possible but are dependent upon the pressure display units selected. Although many of the  
support transducers also have a 0-5V analog output, only the digital output is used by the RDD100 as it provides  
better resolution and accuracy. Any of 16 different pressure display units may be selected for use with the  
RDD100. A list of available pressure units is shown in section 2.4 below. A more complete description of the  
Honeywell transducers can be found in their respective user manuals. See http://www.pressuresensing.com.  
2
EQUIPMENT SET UP  
Cables & Connections  
2.1  
Figure 1 shows connections that must be made between the RDD100 and Honeywell RS-232 pressure  
transducer. A six foot long cable for this connection is supplied with the RDD100. Figure 1 also shows  
connections to the 12V DC input power. To obtain transducer pressure readings, only these two connections are  
needed. Figure 1 also shows a connection to a personal computer. This connection may be used for data  
logging or to communicate with the transducer in order to set up and change various parameters (display units,  
integration time, idle count, etc). A six or ten foot long computer-to-RDD100 cable can be selected when the  
RDD100 is ordered.  
2.2  
Personal Computer Set Up  
The RS-232 transducer must be configured to send continuous readings to the RDD100 in order for pressure  
readings to appear. The display will remain blank and the error LED will be lit continuously when the RDD100  
fails to receive continuous input from a transducer.  
Transducers ordered with the RDD100 will be configured at the factory to function properly with the RDD100. A  
transducer that has not been configured for continuous readings can be configured for use with the RDD100 by  
connecting it to the COMM port of a PC as shown in Figure 1. The HPA/B, PPT, PPTR/E Demo program or a  
terminal emulator program such as HyperTerminal, may be used to send RS-232 formatted serial data to the  
COMM port.  
3
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RDD100 User Guide  
The Demo program or PC terminal emulator port parameters should be set up as follows:  
Baud Rate  
Start Bits  
Data Bits  
Stop Bits  
Parity  
9600  
1
8
1
None  
On  
Local Echo  
Also, configure the program to attach a line feed to the carriage return. This completes the set up of the PC  
terminal emulator.  
Next, the transducer must be configured to match the above terminal emulator settings. (Settings listed above  
are the factory default settings for the HPA, HPB, PPT, PPTE and PPTR, and are therefore likely to be correct.)  
2.3  
Set Transducer Baud Rate  
When a Honeywell digital transducer, connected to a computer as described above, is first powered up a start-up  
message will be sent from the transducer. If the transducer baud rate is not set at 9600, either no message or a  
garbled message will be received. In this case, it will be necessary to try other baud rates until a match is found.  
Possible baud rates for the HPA, HPB, PPT, PPTR and PPTE are: 1200, 2400, 4800, 9600, 14400, 19200, and  
28800. Once a match is found, the transducer can be changed to a baud rate of 9600, which will allow it to  
communicate with the RDD100 instrument.  
The procedure for changing and then storing a new baud rate for the transducer is shown below. The commands  
below all use a broadcast address (99) to allow them to operate correctly even if the transducer address has been  
changed from the factory default setting, which is address 01.  
With the PC and transducer operating at the baud rate found to return a non-garbled start-up message:  
Type *99we<cr>  
Resp *99WE  
(Carriage Return)  
(Command Echo)  
Type *99bp=n9600<cr>  
Resp *99BP=N9600 (Command Echo)  
This will change the transducer to 9600 baud with no parity. Once this command is executed, the PC will again  
lose communication with the transducer, since they will be on different baud rates. Do no power down the  
transducer at this point since the change is only temporary. The PC terminal emulator can now be changed to  
9600 baud and should be able to communicate with the transducer. This can be checked by typing *99p1<cr>  
which should return a single pressure reading.  
Continue as follows in order to store the new baud rate and parity into the transducer EEPROM:  
Type *99we<cr>  
Resp *99WE  
Type *99sp=all<cr> (Store Parameters Command)  
Resp *99SP=ALL (Command Echo)  
(Command Echo)  
After cycling power to the transducer it should now communicate with the PC, set at 9600 baud.  
2.4  
Setting Transducer Display Units:  
Inquiry for the current display units  
Type *99du<cr>  
Resp ?01DU=PSI  
Resp *99DU  
(If transducer factory defaults have not been changed.)  
(Command Echo)  
To change the display units:  
Type *99we<cr>  
4
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Resp *99WE  
(Command Echo)  
Type *99du= {selection-see DU list below}  
(A list of available pressure display units can also be found in the associated transducer User’s Manual.)  
Resp *99DU= {selected display units} (Command Echo)  
Display Units List  
Display Unit PSI Multiplier  
Units Description  
ATM  
BAR  
0.068046  
0.068948  
70.304  
2.3065  
2.0360  
27.679  
0.070307  
6.8948  
ambient atmosphere at sea level  
bar (105 newtons/meter2)  
centimeters of water column (4ºC)  
feet of water column (4ºC)  
inches of mercury (0ºC)  
inches of water column (4ºC)  
kilograms/centimeters2  
kilopascal  
CMWC  
FTWC  
INHG  
INWC  
KGCM  
KPA  
MBAR  
MMHG  
MPA  
MWC  
PSI  
USER  
LCOM  
PFS  
68.948  
51.714  
millibar (1 hectopascal)  
millimeters of mercury (0ºC) or torr  
megapascal  
0.0068948  
0.70304  
1.0000  
0.0010000-999.99  
FS=60000  
FS=100.000  
meters of water column (4ºC)  
pounds per square inch  
user supplied  
logic common value (1)  
percent of full scale in 0.001%  
Increments  
(1) The LCOM display unit (logic common) automatically switches the digital pressure output to a scale, which has  
60000 as the full scale output. The output will have a decimal point in the same position as it was in the original  
psi scale. For example, when a 10 psia device is switched to DU=LCOM, the full scale digital pressure output will  
be 60.000, instead of 10.000. Also, a 500 psi device will output full scale 600.00 instead of 500.00. PFS  
generally provides the highest readout resolution available when using the RDD100 readout.  
2.5  
2.6  
2.7  
“Continuous Transmit” Mode  
Type  
Resp  
Type  
Resp  
*99we<cr>  
*99WE  
(Command Echo)  
*99mo=p2<cr> (Continuous Pressure Transmit Command)  
(Command Echo)  
*99MO=P2  
Changes Stored In EEPROM  
Type  
Resp  
Type  
Resp  
*99we<cr>  
*99WE  
(Write Enable Command)  
(Command Echo)  
*99sp=all<cr> (Store Parameters Command)  
(Command Echo)  
*99SP=ALL  
Verifying Stored Parameters  
After cycling power to the transducer the RDD100 should now display pressure readings in the selected display  
units. If there is a need to interrogate the transducer to observe its set-up parameters, this can be done using the  
following sequence:  
Type  
Resp  
*99du<cr>  
*99DU=INHG (If transducer is set to read inches of mercury)  
Although the Display Units example was used, this method of interrogation will work with any of the set up  
parameters, listed above and in the associated User’s Manuals.  
Note: Since pressure units are not a part of the RDD100 display, the user may want to attach a sticker or some other  
indication of the pressure units either on or near the display window.  
5
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RDD100 User Guide  
3
OPERATION  
3.1  
Start Up Messages  
When the RDD100 is powered up, it goes through a test of its display segments and its error LED. The error LED  
is located beneath the least significant digit of the display. All segments should light for a brief period and then  
the display transitions to “rdd100” followed by the message “rEAdY”.  
If a transducer is properly set up and connected to the RDD100, pressure readings will appear on the display.  
3.2  
Error Indications  
3.2.1 No Transducer Connected  
If the RDD100 does not detect a transducer set to send continuous readings, the display will go through the  
segments and LED check, display “rdd100”, display “rEAdY” and then go dark with the error LED illuminated.  
3.2.2 Incorrect Baud Rate  
If the RDD100 sees a transducer, set to the wrong baud rate, the display will go through the segments and LED  
check, display “rdd100”, display “rEAdY” and hold with the “rEAdY” message.  
3.2.3 Not Set Up To Continuously Transmit  
If the RDD100 sees a transducer that has not been set up to continuously transmit, the display will go through the  
segments and LED check, display “rdd100”, display “rEAdY” and hold with the “rEAdY” message.  
3.2.4 Wrong Polarity Of DC Power  
The RDD100 is equipped with the reverse polarity protection diodes at its power input. The instrument will  
operate with either polarity.  
3.2.5 Transducer Disconnected While Transmitting  
If the transducer is disconnected while transmitting, the last reading received will remain on the display and the  
error LED will light, indicating that no further updates are being made. Reestablishing connection to the  
transducer will result in a continuation of reading updates and the error LED will turn off.  
NOTE: the RDD100 may appear to be in this condition if the transducer has been programmed with a long  
integration time or idle count yielding long durations between readings. It is recommended that the transducer be  
programmed to provide 1 or more readings per second to prevent this possible confusion. (The typical factory  
default reading rate is 5/second.)  
3.2.6 Over/Under-Ranged Transducer Indications  
In the event that a transducer, experiencing an applied pressure or temperature which is over or under the  
specified range, is connected to the RDD100, the following will be indicated:  
Sequence #1:  
If a transducer that is in an over/under ranged condition is connected to the RDD100 and then the power is  
applied to the RDD100, the result will be a start-up message that continuously displays “rEAdY”.  
Sequence #2:  
If the RDD100 is powered up and then an over/under ranged transducer is connected to the RDD100, the result  
will be a blank display and the error LED will light.  
Once the over/under range condition is removed, normal operation of the RDD100 will be restored.  
4
POWER REQUIREMENTS  
4.1  
4.2  
Voltage  
12 ± 3 VDC  
Current  
4.2.1 Operating  
4.2.2 @ Start-Up  
….170 mA (Transducer and RDD100 together)  
.350 mA  
4.3  
Power Connection  
2.5 x 5.5 x 10 mm (I.D. x O.D. x length)  
6
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RDD100 User Guide  
5
OPERATING ENVIRONMENT  
5.1  
5.2  
5.3  
Operating Temp Range  
Storage Temp Range  
Relative Humidity  
-20ºC to +60ºC  
-25ºC to +85ºC  
0% to 90%, non-condensing  
6
DIMENSIONS  
6.1  
6.2  
6.3  
Overall  
Panel Cutout Dimensions  
Depth Behind Panel  
3.8 in. W x 2.0in.H  
3.58 in. W x 1.77in.H  
….4.5 inches (not including connectors and cables)  
RDD100 Connections  
(2) 6 ft. transducer cable  
1/A  
2/B  
4/D  
5/E  
(1) 9-pin cable, 6 or 10 ft.  
S
e
r
i
a
l
Honeywell RS-232  
Pressure Transducer  
C
O
M
Personal Computer  
Wall-  
mounted  
12V DC  
supply  
(3)  
1 2 4 5  
2 3 5  
RDD100  
Figure 1, RDD100 Connections  
(1) This cable allows a personal computer, with suitable software, to communicate through the  
RDD-100 to the transducer. Data can be logged and transducer parameters set/reviewed.  
Length of cable can be chosen when RDD100 is ordered.  
(At the PC, USB to RS-232 converters can be used.)  
(2) Separate cables are available for transducers with Metal or Plastic electrical connectors.  
Standard cable length is 6 feet (1.8 m). Connectors may be purchased from Honeywell to construct  
custom-length cables.  
Due to RS-232 limitations, recommended maximum length is 50 ft (15 m).  
(3) 12 VDC plug is 2.5 x 5.5 x 10 mm (I.D. x O.D. x length)  
Center pin may be either positive or negative polarity.  
Honeywell International Inc.  
12001 Highway 55  
Plymouth, MN 55441  
Form #900221  
September 2005  
©2005 Honeywell International Inc.  
Tel: 800-323-8295  
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