Omega Engineering Computer Monitor DP3300 Series User Manual

Programmable  
Dual Channel Monitor  
DP3300 Series User's Manual  
OMEGA ENGINEERING, INC.,  
ONE OMEGA DRIVE, STAMFORD, CT 06907  
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DP3300 Series User’s Manual  
Turning a Channel ON or OFF .....................................................................................................................................................18  
MODES OF OPERATION FOR A PULSE INPUT CHANNEL:................................................................................................18  
SETUP FOR COUNTER:.............................................................................................................................................................18  
SETUP FOR HIGH AND LOW FREQUENCY MONITOR:......................................................................................................19  
SETUP FOR RATE MONITOR:..................................................................................................................................................20  
SETUP FOR RPM MONITOR:....................................................................................................................................................20  
ALARM OUTPUTS: ........................................................................................................................................................................21  
Status:............................................................................................................................................................................................21  
Resetting: ......................................................................................................................................................................................21  
Open Collector (solid state) output Option: ..................................................................................................................................22  
Figure 1. Open Collector Hookup Example.............................................................................................................................22  
Electro-Mechanical Relay Option:...............................................................................................................................................22  
Figure 2. Electro-mechanical Relays Hookup Example............................................................................................................22  
POWER.............................................................................................................................................................................................22  
FIG. 3: Power, Input/Output connections & rear view of the instrument...........................................................................23  
INPUT/OUTPUT CONNECTOR PIN ASSIGNMENTS.............................................................................................................23  
MOUNTING.....................................................................................................................................................................................24  
Figure 4. Panel Cutout Dimensions...............................................................................................................................................24  
WARRANTY/DISCLAIMER ..........................................................................................................................................................25  
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DP3300 Series User’s Manual  
SPECIFICATIONS:  
(Typical @ 25C and rated supply voltage unless otherwise specified)  
STANDARD INPUTS  
* 4-20ma 10-50ma 0-5Vdc 0-10Vdc  
Thermocouple inputs: J,K,T,E,R,S,B  
Cold junction compensation error: +/- 1C (10C to 40C)  
Open input indication: HELP displayed  
Temperature displayable in Degrees C or F  
Non standard inputs available --- consult factory.  
ANALOG TO DIGITAL CONVERSION  
4-1/2 Digit (20,000) Count) A/D Converter  
Dual slope integrating converter with 7 conversions /sec. (typical) rate.  
SCAN RATE  
Fixed: two channels per second  
DISPLAY  
Red seven segment displays--0.39" (10mm) digit height  
Over range indication: HELP  
Display test: Briefly displays 8.8.8.8.8.8.8 on power up.  
Seven digit display  
SCALE/OFFSET  
Scale programmable from 1-30000 units  
Offset programmable from 0-99.99 MA (For MA Input)  
Offset programmable from 0-9.999 MV (For Voltage Input)  
RELIABILITY/ACCURACY  
Calibration: NIST traceable (for thermocouples)  
Temperature resolution: 1C/1F, 0.1% of Full Scale  
Warranty: 1 Year  
Recalibration recommended at 12 month interval  
POWER REQUIREMENT  
* 120Vac --- 60 HZ (Standard)  
* 240Vac --- 50 HZ (optional)  
* 8Vdc --- 12Vdc  
(optional)  
OUTPUT (optional)  
Open collector outputs – 6 open collector outputs, maximum sink capability of 50ma per output  
Relays: Single pole single throw, 1 Amp @ 28Vdc or 0.5 Amp @ 120Vac resistive  
Output termination: Euro-style plugable connector  
DECIMAL POINT:  
Programmable: None, 10th position, 100th position, 1000th position  
COUNT/RATE/RPM/FREQUENCY:  
Count Range : 1 – 9999999 Rate Range: 0 – 9999999 Frequency Range: 2.00 to 1000000 RPM Range: 0 - 9999999  
Scaler 0.00000 to 99.99999  
Division factor: 0 to 65000  
Rate Time Base: Programmable 1.000 Seconds to 9999.999 Seconds  
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DP3300 Series User’s Manual  
DESCRIPTION:  
A highly versatile series, DP3300 offers a unique combination of two analog channels or two pulse input channels or a  
combination of pulse (square wave) on one channel and an analog signal on the other. This feature allows it to be used as  
counter, rate, RPM or a frequency monitor along with displaying an analog signal such as 4-20ma loop current, voltage or  
millivolts or a temperature signal from thermocouples, RTDS etc. For example, flow and temperature or flow and pressure can  
easily be monitored in a single unit.  
On the analog channel, signals from thermocouples, RTDS or thermistors are linearized and displayed in degrees Centigrade or  
Fahrenheit. Voltage and milliamp signals (4-20ma etc.) are displayed in engineering units that correspond to the process being  
monitored. Scaling is accomplished through front keys and does not require any tedious formulas.  
The Pulse (or square wave input) channel functions like four monitors in one. It can be programmed as an up/down counter, rate,  
rpm or frequency monitor. In counter mode, the channel can count up or down to a maximum count of 9,999,999 and also offers  
three presets along with built in delay timers. As a rate indicator, it offers a programmable time base from 1.000 to 9999.999  
seconds.  
In RPM mode, the channel counts incoming pulses and displays the data as revolutions per minute. In frequency mode, an internal  
crystal reference is used to indicate the frequency of incoming pulses (low frequency mode only). Measured frequency range is  
from 1Hz to 1 megahertz. Two modes of operation are supported:  
1. High frequency mode (resolution = 1Hz)  
2. Low frequency mode ( resolution = 0.01 Hz)  
NOTE: Check model number for the type of input and display units ---- thermocouples, 4-20ma, 0-5Vdc, or 0-10Vdc  
etc...  
MODEL NO  
DP3300-TC  
DP3300-TH  
DP3300-RTD  
DP3300-R  
DESCRIPTION  
J,K,T,E Thermocouple, 4-20ma, 0-10vdc  
& 0-5vdc pulse  
Thermistor (400 Series) , 4-20ma, 0-10vdc and  
0-5vdc pulse  
100 Ohm RTD , 4-20ma, 0-10vdc and  
0-5vdc pulse  
'R' Thermocouple, 4-20ma, 0-10vdc and  
0-5vdc pulse  
OPTIONS (Add to Model No)  
SUFFIX  
DESCRIPTION  
240vac Power  
-1  
-2  
-3  
-4  
15vdc Power  
4 Relay Outputs  
4 Open collector outputs  
'S' Thermocouple , 4-20ma, 0-10vdc and  
0-5vdc pulse  
DP3300-S  
'B' Thermocouple , 4-20ma, 0-10vdc and  
0-5vdc pulse  
DP3300-B  
100Millivolt , 4-20ma, 0-10vdc and  
0-5vdc pulse  
DP3300-MV  
SAVING PROGRAMMED PARAMETER:  
DP3300 saves all the programmed parameters in an EEPROM (electrically erasable programmable read only memory).  
An EEPROM stores the programmed parameters even when the power is removed from the unit. However, it is important to note  
that if the parameters are being changed during setup, they must be saved in the EEPROM by pressing and holding the RESET  
key till the display reads 'SAVING' (also described under SETUP). If the parameters are NOT saved and the power is removed  
from the unit, any newly changed values will be lost (the unit will, however, maintain the old values).  
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Table 1. How to Display Parameters  
TO DISPLAY  
PERFORM FOLLOWING STEPS  
1) Channel 1’s Process value  
a) Push CH SEL key once.  
2) Channel 2's Process  
Value  
a) Push CH SEL key twice. First push selects channel 1 and the  
second push will select and display channel 2's process reading.  
3) Channel's high peak  
4) Channel's low peak  
a) Select channel whose high peak is desired (push CH SEL key)  
b) Push HI/LO key once  
a) Select channel whose low peak is desired (push CH SEL key)  
b) Push HI/LO key twice --- 1st push displays high peak,  
2nd push , low peak.  
5) Rate  
a) Select channel whose rate is desired (push CH SEL key)  
b) Push DATA key once.  
6) Channel Differential  
a) Select a channel by pushing CH SEL key ONCE  
b) Push DATA key twice -- 1st push displays rate,  
2nd push: Channel Differential  
7) TOTAL  
a) Select a channel by pushing CH SEL key twice  
b) Push DATA key SIX times till TOTAL displays in the window  
The sequence is: Rate, Channel differential, Limit1, Limit2, Limit3, Total  
8) BATCH  
a) Select a channel by pushing CH SEL key twice  
b) Push DATA key SEVEN times till bATCH displays in the window,  
The sequence is: Rate, Channel differential, Limit1, Limit2, Limit3, Total, Batch  
9) LIMITS  
a) Push CH SEL key to select desired channel  
b) Push DATA key THREE times to display channel's limit number 1  
c) Each additional push after that will display limit 2 & limit 3  
10) Elapsed time  
a) Push TIME key.  
11 Scan  
a) If the unit is holding, push the SCN/HLD key once.  
12) Hold  
a) If the unit is scanning, push the SCN/HLD key once.  
PEAKS:  
A very useful function on the system is tracking the highest (peak) and the lowest (valley ) point attained by each channel. This is  
particularly helpful if an operation is not being constantly watched or is left unattended e.g. overnight.  
DISPLAYING PEAKS  
The first step in displaying peaks is to select the channel whose peaks are desired. This is done by pushing the 'CH. SEL' key.  
Once the desired channel has been selected, push the 'HI/LO' key. Pushing it once will show the high peak attained by the  
selected channel. Pushing it a second time will indicate the low process value (NOTE: The second push, to display valley, must  
be initiated before the display reverts to normal display mode). Before displaying high peak the display will read 'CHx HI'  
(x=channel #). Similarly, for low peak the display will indicate 'CHx LO' (x=channel #) before showing the value.  
If an attempt is made to display the high or low peak of a channel which has been turned off (in CH Setup), the display will read  
'CHx OFF' (x=channel #) to indicate the channel status.  
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RESETTING PEAKS  
Peaks can be reset to current process value e.g. if channel 1 is reading 200 C, its peaks can be reset to 200. This will allow  
tracking from the current process reading. To reset high peak, first select the channel whose peak is desired to be reset (by  
pushing the ‘CH. SEL’ key). Once the channel has been selected, push the ‘HI/LO’ key and keep it pushed. The display will  
read 'CHx HI' (x=channel #) following which the value of high peak will be displayed. With the HI/LO key still pushed, go on  
to push the RESET key. The display will read 'RESEt' and the unit will then take the present value of process on that channel  
and enter it as the new high peak. To reset low peak, release HI/LO key (from high peak display mode) and push it again  
immediately -- and keep it pushed. The display will read 'CHx LO' and then the value of channel's low peak. With the HI/LO  
key still pushed, press the RESET key. The display will read 'RESEt' and the unit will enter the present process value as  
channel's new low peak.  
RATE:  
DP3300 tracks the rate of process change per programmed time base for each channel. This RATE is displayed by first pushing  
the CH. SEL key to select the channel whose rate is desired and then pushing DATA key once. The display will briefly read  
'rAtE' and then show the monitored rate for that channel.  
MODES OF OPERATION FOR PULSE CHANNEL:  
RATE MONITOR:  
As a rate indicator, DP3300 series features crystal controlled accuracy and provides the flexibility of a programmable time base  
for sampling. The time base can be set from 1.000 seconds through 9999.999 seconds in increment of 0.001 second and is done  
during SETUP (look under SET-UP). Additionally, a division or scaler factor can also be programmed that will divide or scale the  
incoming pulses. For a quicker update of rates , a scaler factor can be programmed (when a channel is programmed for a rate  
mode). For example, if rate /minute is desired, then setting the time base to 1.000 and scaler to sixty, will give you rate/minute.  
This rate, however, will be updated every one second. It may be noted that rate calculated this way may loose some accuracy.  
Additionally, the unit shows the rate, based on the programmed time base in all the system modes i.e. frequency, counter and  
RPM. This can be displayed by first selecting the desired channel (by pushing CH SEL key) and then pushing the DATA key.  
(NOTE: In the RPM mode, the rate time base must be smaller than the selected filter value. If not, the system will  
automatically consider the filter value as the time base for rate calculation. Also, a difference of 0.500 is recommended  
between the filter and time base).  
There are three rate based limits (two withoutputs, 1 audio/visual) that can be set anywhere from 1-9,999,999. These limits can be  
configured to reset automatically when the rate falls below the set limit or alternately reset manually. This is done by going into  
the setup mode and selecting the proper configuration (look under SETUP).  
RPM MONITOR  
In RPM mode, the system will accept 0-5V square wave or pulse input from a sensor and show revolutions per minute. The input  
has a schmitt trigger so as to accept any kind of square wave or pulses, as long as the high and low specifications are met.  
Also a filter function is provided in the RPM mode which allows to smooth out rapidly changing RPM. On the contrary, if it is  
desired to see the variation in the RPM, then this feature alsocomes in handy. Select a low filter value to see variations in RPM  
and a higher value for a more stable display. Selectable filter values are 1,2,4,6,10,15,20,30 and 60 and the selection is done in  
SETUP mode.  
Three RPM based limits (two with outputs, 1 audio/visual) are provided for each channel that can be set to activate internal relays  
when a preset limit is exceeded. The ON/OFF status of these relays is indicated on the front panel by LEDs.  
There are two modes of resetting the limits. First is automatic mode in which the limits reset automatically as soon as RPM falls  
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below the limit (minus the relay) deadband. The second mode is manual reset. Once the limits are energized, they will stay  
energized until manually reset.  
(NOTE: In the RPM mode, the rate time base must be smaller than the selected filter value. If not, the system will  
automatically consider the filter value as the time base for rate calculation. Also, a difference of 0.500 is recommended  
between the filter and time base).  
FREQUENCY MONITOR:  
DP3300 monitor can also be programmed as a frequency monitor. In this mode the unit will display incoming frequency with a  
crystal based reference. Input signal is used for gating one time period. An internal counter counts the clocks from a crystal based  
oscillator and uses that to determine the frequency of incoming signal. Frequency range is from 5.00HZ to 1,000,000 HZ.  
There are two frequency modes in which the system operates. Low frequency and high frequency. These modes are selected  
during SETUP. In low frequency mode, the unit will show frequency in 100th of a hertz and the range is from 2.00 HZ to 500.00  
HZ. In high frequency mode, the system displays the frequency in unit steps. The range is from 1 HZ to 1,000,000HZ.  
During frequency mode, indicated rate is same as the frequency. Total and batch count is not updated during this mode. High and  
low peaks are captured and can be displayed by pushing the HI/LO key.  
Three Frequency based limits (two with outputs, 1 audio/visual) per channel are provided which activate when preset limit is  
exceeded. The status of these limits is indicated on the front panel by LEDs.  
There are two modes of resetting the limits. First is the automatic mode in which the limits reset automatically as soon as the  
frequency falls below the limit minus the relay deadband. The second mode is manual reset. Once the relays are energized, they  
will stay energized until manually reset.  
NOTE: Channel 2 can be programmed for low frequency mode, only if Channel 1 input is not configured for pulse. If  
Channel one is configured for pulse input, Channel 2 does not allow low frequency configuration during setup and the low  
frequency step is automatically skipped. Also, if Channel 2 is configured for low frequency (e.g. with Channel 1 being  
setup as Analog Channel) and Channel 1 is switched from Analog to Pulse input, channel 2 will be automatically switched  
from low frequency to high frequency mode. Under this condition, limits must be reconfigured for proper value with no  
decimal point on channel 2.  
COUNTER  
In counter mode, the system can be programmed to either count up or count down in six different modes. The limit relays can be  
programmed to reset manually or automatically. Also, the delay time on automatic reset of the relays is programmable.  
For scaling, the unit provides the convenience of a scaler and a division factor. The scaler can be programmed from 0.00000 to  
99.99999, in increments of 0.00001. Scaler is a number with which the input count is multiplied. For Example a flow meter that  
puts out one pulse for every 0.00024 gallons, would require a scaler of 0.00024. On a pulse count of 10000, the display will read  
2.4 (10000 x 0.00024 = 2.4). Scaler is disabled if its value is set to 0.00000. Similarly, the division factor works on incoming  
pulses and divides them with the programmed factor.  
NOTE: Division factor is disabled if a scaler value greater then 0.00000 is programmed.  
Various operating modes of the counter are explained below:  
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MODES OF OPERATION FOR COUNTER:  
COUNT UP CONFIGURATION:  
MODE 0: (Count up with manual reset to zero)  
In this mode the system counts up from zero. Preset limits energize when the count reaches presets limit values. The unit  
will continue counting up until manually reset. To reset the count manually, first select a channel by pushing CH SEL  
key and ,while keeping CH SEL key pushed, simultaneously push the RESET key . The display will read 'RESET'  
and then the reset value of zero will be displayed. On resetting to zero, the outputs will automatically de-energize and  
this will be indicated by the LED'S for the respective outputs turning off on the front panel.  
MODE 1: (Count up to Preset with auto reset to zero)  
In this mode the counter counts up to a preprogrammed preset value (look under SETUP). On reaching preset the counter  
automatically resets to zero and starts the up count again. The count can be reset manually before it reaches preset. To  
reset the count manually, first select a channel by pushing CH SEL key and ,while keeping the CH SEL key pushed,  
simultaneously push the RESET key. The display will read 'RESET' and then the reset value of zero will be displayed.  
Preset limits energize when the count reaches limit values.  
MODE 2: (Count up to Preset with auto Zero after delay)  
In this mode the counter counts up from zero to a preset value. Preset limits energize when the count reaches limit  
values. On reaching PRESET, the delay period starts. After the delay period is over, the count is automatically zeroed,  
the limits, if energized (and in non-latch mode), are reset and the count up starts again. The delay period is programmed  
in SET - UP mode.  
For example, if PRESET is set to 9000 counts and the delay period is programmed for 10 seconds, then when the counter  
reaches 9000, the delay period will start and after 10 seconds of reacing 9000 count, the count will be reset to zero.  
COUNT DOWN CONFIGURATION  
MODE 3: (Count down to zero with manual preset)  
In this mode the counter counts down from a preset number (preset number is programmed during SETUP). On  
reaching zero the counter will not decrement further until manually preset. To preset the counter value manually, push  
CH SEL key to select a channel. While keeping CH SEL key pushed, go on to push the RESET key simultaneously.  
The display will read 'RESET' and then the displayed value will be reset to zero. Count down will start immediately  
thereafter.  
When count goes down to a limit value the respective output is energized. The output will stay energized until the count  
is preset as explained above.  
MODE 4: (Count down to zero with auto preset)  
In this mode the counter counts down from a pre-programmed preset value (look under SETUP). When count goes  
down to limit value, the respective output gets energized. The display in the meantime will keep counting down. When  
it reaches zero, it will automatically preset itself to the programmed preset value.  
NOTE: i) Time delay in modes 2 and 5 must be less than the time required to count from zero to  
preset or preset to zero.  
MODE 5: (Count down to zero with auto preset after delay)  
In this mode the counter counts down from a Preset value. Preset limits energize when the count reaches limit values. On  
reaching zero, the delay period starts. After the delay period is over, the count is automatically preset, the limits, if  
energized (and in non-latch mode), are reset and the count down starts again. The delay period is programmed in SET -  
UP mode.  
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RESETTING COUNT:  
The COUNT shown for each channel can be reset to zero or preset for a count down (depending on counter mode) at any time. To  
reset the count manually, first select a channel by pushing CH SEL key and ,while keeping the CH SEL key pushed, push the  
RESET key simultaneously. The display will read 'RESET' and then the reset value of zero will be displayed. If the counter is  
set for count down mode, then the display will preset to the value that was programmed during SETUP.  
RELAY DELAY PERIOD:  
Relay delay period in counter modes 2 and 5 is programmable from 1 to 9999999 seconds (look under SETUP). Delay period is  
the time for which the output stays in its current state on reaching zeroor preset. Following the end of delay period, the output is  
either reset or preset (depending on the counter type seleted).  
TOTALIZER:  
DP3300 series keeps track of total in counter, RPM and rate mode and can be displayed by pushing the DATA key.  
In rate mode, if the displayed rate is 500 units per minute, then over a period of half an hour the total would be 15000 (500 x 30 =  
15000). Similarly in RPM mode the TOTAL is the accumulated revolutions over the time period the unit has been working.  
In counter mode, the unit indicates the total count. This is irrespective of preset value i.e. if the preset is 5000 and the counter is in  
count - up mode, then after the unit has gone through ten preset cycles, the display will indicate a total of 50,000 (5000 x 10 =  
50,000). If in count down mode, the total represents the accumulated down counts.  
BATCH COUNT:  
DP3300 series also offers batching capability in counter mode. One batch constitutes of counting up or down (to preset or zero,  
respectively) to or from the preprogrammed PRESET value e.g. if PRESET is set to 5000 (and the channel is in counter mode 3)  
then each time the count goes up to 5000, it will reset to zero and start counting up again. This will constitute one batch.  
To view the number of batches processed, first select a channel (by pushing CH SEL key) and then successively push DATA key  
till BATCH shows on the display. To reset batch count, bring up the batch count on the display and while still holding in the  
DATA key, simultaneously push the RESET key. The display will show 'RESET' followed by reseting of batch count.  
SCALING:  
Scaling is used for multiplying or dividing incoming pulses by a number. It is achieved by programming Scaler value or division  
factor during SETUP. This feature is useful if each revolution of a shaft produces more then one pulse, e.g. if a shaft gives 100  
pulses per revolution then programming the division factor equal to 100 will give the actual RPM of the shaft. This can also be  
used in cases where a count is required on boxes with each box containing a certain number of parts, e.g. if it is required to obtain  
the count on cartons containing soft-drink bottles with each carton containing 50 bottles, the scaler will be set to 50. Similarly  
scaling can be used to measure length or flow of liquids.  
Scaler can be programmed from 0.00000 to 99.99999, in increments of 0.00001. Scaler is a number with which the input count is  
multiplied. For Example, a flow meter that puts out one pulse every 0.00024 gallons, would require a scaler of 0.00024. On a  
pulse count of 10000 (and decimal point programmed in 10th position), the display will read 2.4 (10000 x 0.00024 = 2.4). Scaler  
is disabled if its value is set to 0.00000.  
The difference between division factor and scaler is that division factor is in whole number where as scaler can be programmed in  
increments of 10,000th of a unit. Also, the maximum scaler value that can be entered is 99.99999. However, SCALER should be  
limited so that the display would not go into over range condition. For Example, if the SCALER is set to 65.12345 and the pulse  
count goes to 1000000, the overall number becomes 65,123,450. This number is beyond the display capability of the unit).  
TIME:  
The system keeps track of the process run time in Hours, minutes and seconds. To display the elapsed time since the system was  
turned on or the time was last reset, push the TIME key. The display will first read "ELPSD T" ( for elapsed time) followed by  
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the indication of the elapsed time. Maximum time indicated is 999.59.59 hours.  
To reset the timing and start it all over again, first push the TIME key and while keeping it pushed, press the RESET key. The  
time will reset and start over from 000.00.00 hours.  
SETUP:  
Setup mode provides a means to customize the monitor to suit a particular application. It allows programming such parameters as  
temperature units, limits, display mode, relay deadband, etc.  
SETUP mode has 2 sections:  
a) the SYS setup section to set system parameters  
b) the CH setup section to set channel parameters for each channel.  
To get into SETUP mode, push the SETUP key twice. The first push displays elapsed time and the second push brings the unit  
into the SETUP mode. SETUP mode is indicated by 'SETUP' in the display window (the SETUP LED indicator will also be  
illuminated) followed by 'ENtR PC' (for ENteR Pass-Code). The pass-code feature has been provided to keep unauthorized  
personnel from changing any parameters. Each of the five keys on the front panel are labeled with a number in the lower right  
corner. The pass-code is a four digit combination of these numbers. Enter the pass-code when the displays reads 'ENTR PC' .  
For DP3300 units, the PASS-CODE # is 3254.  
Three attempts at entering the correct pass-code are allowed. 'HELP' shows up in the display window if the attempted pass-code  
is wrong. If a person fails in three attempts the system will go back to normal display mode. To make another attempt at this  
point one has to get into SETUP mode again.  
Three keys are used during setup --- SETUP, < NEXT >, and ^v. If, at any point during SETUP, it is desired to get out of  
SETUP, push and hold the RESET key until the display reads 'SAVING'. The SETUP key takes you from one parameter to the  
next. For Example, if you are setting up Channel ON/OFF, then after getting the desired value push SETUP key to setup for  
Degrees C/F. The <NEXT> and ^v keys are used for programming the values of parameters such as limits, setpoints, etc.  
EXITING SETUP:  
To exit from any point during SETUP procedure or to save the newly made changes, simply press and hold the RESET key until  
the display shows 'SAVING'. This indicates that the unchanged and the newly made changes are being saved in the EEPROM for  
permanent storage.  
Once the correct pass-code has been entered, the display shows 'SYS CH', with CH blinking. At this point the operator may  
choose between making channel settings (CH), or system settings (SYS). Use ^v key to toggle between CH and SYS modes.  
When the desired mode is blinking, press the SETUP key to begin setup of the parameters for that mode.  
CHANNEL CONFIGURATION  
After entering the correct pass-code and selecting the blinking 'CH' (ref. SETUP section), the display shows 'SLCt CH' (for  
"Select Channel"). Use ^v key to display the desired channel. The selected channel will be displayed in the format 'CHANEL x'  
(where x=channel#). Once the desired channel # is displayed, push SETUP key to go on to setup parameters for the displayed  
channel #.  
‘Input Type’ Setup  
The display will briefly show 'IP TYPE' (for "Input type") after which current input type for the channel will be displayed.  
Various inputs are: J T/C, CR.AL T/C (Chromel Alumel, type K T/C), T T/C, E T/C, CURRENT, VOLTAGE or PULSE  
(Refer to model number on the unit to find input type). To change the displyed input, push ^v key till appropriate type is  
displayed. Push SETUP key to move to the next step.  
NOTE 1: Whenever input type is changed, the unit automatically clears the previously entered engineering display units.  
Therefore, do not forget to enter new engineering units (ref. Display Units section) or the respective channel will display '. . .'  
(three dots) when displaying a process value.  
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‘Channel ON/OFF’ Setup  
After displaying input type, the next step turns a channel ON or OFF. This determines whether a channel is scanned and  
displayed or not. If for any reason a channel is not being used, it should be turned OFF. This will prevent the unit from spending  
any time scanning it and also from displaying a 'HELP' message if there is no signal connected to its input. If a channel is OFF,  
the display will show 'CHx OFF' , and if it is ON the display will show 'CHx ON' (x=channel #).  
Use ^v key to display the desired ON/OFF setting, and then push SETUP key Setup For Decimal Point Position.  
NOTE: If input type is voltage or current, then the next step performed in setup is selection of Decimal  
Point position. For thermocouple, RTD or thermistor inputs, the following steps are performed:  
Setup for degrees Centigrade or Fahrenheit  
After turning a channel ON/OFF, the next step is to select temperature display units. At this point the display will read 'DEGRE  
C' or ' DEGRE F'. Push ^v key to make an alternate selection. After the selection, push SETUP key to go to the next step ---  
THE NEXT STEP IS SETTING UP OF LIMITS.  
FOLLOWING STEPS (UP TO SETTING UP OF LIMITS) ARE PERFORMED ONLY FOR UNITS WITH VOLTAGE  
OR CURRENT INPUT:  
‘Decimal Point Position’ Setup  
After setting the channel ON or OFF, the next parameter for configuration is setting the decimal point position. This is indicated  
by the display showing 'dP 9999' (dP=decimal point). The ^v key moves the decimal point thru all the possible positions. After  
'9.999', the display goes to '9999' which indicates a display with no decimal point.  
Use ^v key to move decimal point to the desired position, and then push SETUP key Setup High Scale.  
‘High Scale’ Setup  
After setting the channel's decimal point position, the next parameter to be set is the High Scale. This parameter determines what  
number will be displayed when the transducer puts out its maximum signal. For example, suppose a pressure transducer produces  
a 0Vdc to 10Vdc signal which corresponds to 0psi to 150psi. Then you would want the display to show 150 when 10Vdc is  
measured. To do this, set High Scale=150.  
After pushing the SETUP key, the display will briefly read 'HI SCLE' (for "High Scale"), and then show the current High Scale  
setting. Active digit (the digit that can be changed) will be flashing. Pushing ^v key and keeping it pushed, will increment the  
digit. Releasing ^v key and then pushing it again will decrement the value (^v key works as a toggle -- alternating between  
increment and decrement). To change the next digit, push <NEXT> key. This will advance the flashing to the following digit.  
Use ^v key to change the value. After the desired High Scale setting is displayed, push SETUP key to go to the next step.  
‘Low Scale’ Setup  
After setting a channel's High Scale, the next parameter to be set is Low Scale. This parameter determines what number will be  
displayed when the transducer puts out its minimum signal. For example, suppose a pressure transducer produces a 0Vdc to 5Vdc  
signal which corresponds to 10psi to 75psi. In this case the display should read 10 when 0Vdc is measured. To do this, set the Lo  
Scale=10.  
After pushing SETUP key, the display will briefly read 'LO SCLE' (for "Low Scale"), and then show the present Low Scale  
setting. Active digit (the digit that can be changed) will be flashing. Use ^v key (as described in Setup For High Scale) to change  
the value. After the desired Low Scale setting is displayed, push SETUP key to go to the next step.  
‘Offset’ Setup  
After setting a channel's Low Scale, the next parameter to be set is channel offset. Offset is used for calibrating a channel to a  
specific transducer that puts out a signal other than zero at its low end. If a transducer happens to output a small signal at its low  
end excitation, then the OFFSET parameter is used to make the transducer's minimum signal appear to be zero. For instance,  
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suppose a flow transducer outputs a 0.130Vdc to 5.000Vdc signal which corresponds to a flow rate of 0 to 40 gal./min. Then to  
make the 0.130Vdc correspond to a display of 0, set OFFSET =0.130.  
NOTE: If the input type is CURRENT, the Offset value is entered in milliamps.  
If the input type is VOLTAGE, the Offset value is entered in millivolts.  
After pushing SETUP key at the completion of Setup For Low Scale, the display will briefly read 'OFFSEt', and then show the  
present Offset value. The active digit will be flashing. Use ^v key (as described in Setup For High Scale) to enter a desired  
OFFSET value. After the desired OFFSET value is displayed, push the SETUP key to go to the next step.  
‘Tare’ Setup  
After setting a channel's OFFSET value, the next parameter to be set is channel TARE. TARE is used if it is necessary to always  
subtract a value from a reading prior to displaying that reading. For example, suppose a pressure transducer always includes  
atmospheric pressure of 15 psi, and you only wish to display pressure differential from atmospheric (a gage reading of 19psi is to  
be displayed as 4psi). To do this, enter the number you want subtracted from the measurement prior to displaying it.  
The display will first show 'tARE' after which current TARE value will be displayed. Use ^v key (ref. Setup For High Scale) to  
set the desired TARE number. Once the desired TARE value is displayed, push the SETUP key to enter that value and go to the  
next step.  
‘Limits’ Setup  
DP3300 uses LIMIT parameter to determine when to activate output signal for a specific channel. When a reading exceeds  
LIMIT value , then the output for that limit is activated. When a channel reading drops below the LIMIT setting by an amount  
equal to the DEADBAND setting, then the channel’s output is de-activated.  
The display will first show 'CHx Lt1' (where ‘x’ is the channel number) following which the LIMIT value will be displayed.  
Use ^v key (ref. Setup For High Scale) to set a desired value. Once the desired LIMIT value is displayed, push SETUP key to  
enter that value and go on to setting up limit 2. After limit 2 (which is setup just like limit1), limit 3 for the channel will be setup.  
‘Deadband’ Setup  
After setting a channel's limits, the next parameter to be set is the channel's output relay DEADBAND. This parameter is used to  
eliminate relay "chatter" as a signal hovers around its LIMIT value. When channel reading drops below the LIMIT setting by an  
amount equal to DEADBAND setting, then that particular limit output is de-activated. The minimum value of DEADBAND is 2.  
The display will first show 'dEAd bd' after which the present DEADBAND value will be displayed. Use ^v key (ref. Setup For  
High Scale) to set the desired DEADBAND value. Push SETUP key after programming DEADBAND value.  
‘Relay Latched/Non-Latched Mode’ Setup  
In Latched mode the relay is activated when its LIMIT value is exceeded and stays activated until the operator manually resets the  
relay. To manually reset a relay on channel 1 or 2, first select the channel by pushing the CH. SEL. Then push the DATA key  
until the desired limit number for the particular channel comes up on the display e.g. CH2 LT3 (Channel 2, limit number 3).  
While keeping the DATA key pressed, simultaneously press the RESET key. This will reset the respective limit relay (NOTE:  
Process reading should be below the limit value for the relay to reset. Otherwise, pushing of the keys will be ignored)  
In Non-latched mode the relay is activated when its LIMIT value is exceeded. The relay is deactivated when the channel readings  
drop below the LIMIT value by the DEADBAND setting.  
The display will show 'NON LCH' for Non-Latch mode, or 'LAtCH' for Latch mode. Use ^v key to toggle between settings.  
Once the desired setting is displayed, push SETUP key to enter that value and go to the next step.  
‘Relay Normally Open/Closed’ Setup  
After setting DEADBAND, the next parameter determines whether channel's output relays will operate as "Normally Open" or as  
"Normally Closed". The relay itself is a Single Pole Single Throw (SPST) relay.  
When this parameter is set for "Normally Open", the relay contacts are open when reading is below LIMIT, and closes when the  
channel reading exceeds its LIMIT value.  
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When this parameter is set for "Normally Closed", the relay is closed when readings are below LIMIT, and opens when the  
channel reading exceeds its LIMIT value.  
The display will show 'LTx N.O.' (where ‘x’ is the channel number) for a Normally Open setting or 'LTx N.C.' for a  
'Normally Closed' setting. Use ^v key to toggle between two settings. Once the desired setting is displayed, push SETUP key to  
go on to setting up limits 2 and 3 for the channel. The display format is 'LT2 N.O' or 'LT2 N.C.' and 'LT3 N.O' or 'LT3  
N.C' respectively.  
‘Engineering Units’ Setup  
After setting a channel's relay for NORMALLY OPEN/CLOSED operation, the next step sets the 3 letters that follow the process  
value in the display. These 3 letters represent the measurement units for analog channels (only analog channels have this feature).  
Any desired combination of the following letters may be programmed:  
A,B,C,D,E,F,G,H,I,J,L,N,O,P,Q,R,S,T,U,Y  
The letter selection goes up to 'Y' and down to 'A' and from 'A' down to ' - ' sign. The ' -' sign indicates that that particular  
digit will be blanked e.g. if the desired engineering unit was feet, then the display can be programmed to show ' Ft'. In this case  
one letter (the letter to the left of letter 'F') will be blanked out by programming a ' - ' sign in its location.  
If no engineering units have been programmed, then three dots will be displayed. Whenever the input type is changed from one  
type to another, the system automatically clears the engineering units. Therefore, it is necessary to enter new units after a change  
in the input type has been made. The only exception in this case is when a thermocouple selection is made. In that case, the unit  
automatically enters an 'F' or 'C' (Fahrenheit or Centigrade) depending upon the selected display units. However, just like the  
other inputs, any alternate units may be programmed for thermocouples.  
The display will first show 'C1 UNIt' after which the present UNITS setting will be displayed. Use ^v key (ref. Setup For High  
Scale) to setup the desired UNITS . Push SETUP key after the desired UNITS are displayed.  
‘Rate Time Base’ Setup  
Rate time base is used for calculating rate for the selected channel. The units for Time base are seconds and it can be entered in  
increments of 1000th of a second. Minimum Time base is one second.  
The display will first show 'rAtE tb' after which the current Time Base value will be displayed. Use ^v key (ref. Setup For High  
Scale) to enter desired value. Push SETUP key after programming Rate Time base.  
Input Signal type selection:  
The display will briefly show 'IP TYPE' (for "Input type") after which the present input type for the selected channel will be  
displayed. Various inputs available are: J T/C, CR.AL T/C (Chromel Alumel, type K T/C), T T/C, E T/C, CURRENT, or  
VOLTAGE. If the unit has a noble metal thermocouple option, then only one T/C can be selected i.e. B T/C, R T/C, or S T/C.  
Use ^v key to display the desired input type. Once the desired input type is displayed, push SETUP key to enter that input type  
and go to the next step.  
SYSTEM CONFIGURATION:  
After entering correct pass-code and selecting the blinking 'SYS' (ref. SETUP section), the DP3300 goes into the SYSTEM  
CONFIGURATION mode. This mode allows setting up parameters that affect all the channels or the instrument in general.  
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Display Options  
On pushing SETUP key while the display is flashing SYS , the display briefly shows 'dSP OPt' (for display option) and then  
the current Display Option setting. Following display options are selectable. Use ^v key to step thru these options. Once the  
desired Display Option is shown, push SETUP key to enter the setting and go to set Display Time.  
Option  
SCAN  
Display  
SCAN  
Description  
Scan all channels that are turned on.  
HIGH POINT  
LOW POINT  
CH1 – CH2  
CH2 – CH1  
ELAPSED TIME  
HIGH Pt  
LO Pt  
CH1 – CH2  
CH1 – CH2  
ELPSEd t  
Display peak value of all channels that are turned on.  
Display low reading of all channels that are turned on.  
Channel 1 differentialwith respect to channel 2  
Channel 2 differentialwith respect to channel 1  
Elapsed time  
‘Display Time’ Setup  
The first parameter in system setup mode is the DISPLAY TIME. This determines how many seconds a channel's reading is  
displayed before scanning to the next channel. The display will first show 'dSPLy t' (for Display Time), and then the present  
setting in seconds. Use ^v key (ref. Setup For High Scale) to set the desired DISPLAY TIME value. Once the desired DISPLAY  
TIME value is displayed, push SETUP key to enter that value and go to Setup For Relay Latch/Non-Latch  
Audio Alarm ON/OFF  
The next step lets you program the buzzer ON or OFF. The display will either read 'ALR ON' or 'ALR OFF'. To make an  
alternate selection, push ^v key. After making any change or to retain current setting, push SETUP key. This will take you to the  
very beginning of setup mode.  
Cold Junction Setting  
The next parameter is the cold junction reference temperature. The display will first show 'COLd JN', and then the cold  
junction temperature will be indicated. IF NECESSARY, use the ^v key to adjust until the display reads proper temperature.  
Once the correct temperature is displayed, push PROG key to enter that setting and go to Controller Calibration.  
NOTE 1: The unit should be powered up for at least fifteen to twenty minutes before any adjustments are made to the cold  
junction reading.  
NOTE2: Cold Junction temperature is the temperature at the connector where thermocouple connects (and forms the juntion) into  
the unit. IT IS NOT THE AMBIENT TEMPERATURE.  
Calibration Mode  
After setting the Cold Junction Reference temperature, the next step is calibration of channels. This allows easy calibration of  
each channel without the instrument scanning from channel to channel. The display will show channel input reading in the form  
'x-nnnnn' (where x=channel number and nnnnn is the process reading).  
NOTE 1: ONLY channels that are turned ON will be displayed at this time!  
NOTE 2: Only analog channels can be calibrated.  
Thermocouple Calibration Procedure  
Note: Make sure the unit is reading correct cold junction temperature before calibration.  
If incorrect, adjust as described in the "Program For Cold Junction" section.  
For calibrating a thermocouple Channel, the following steps should be performed. Note that calibrating one channel will  
automatically calibrate the other channel. Also, only one type of thermocouple input needs to be calibrated i.e. J,K,T or E. For  
example, if the calibration is done for a type K thermocouple, types J, T, and E are automatically calibrated.  
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1. Connect a thermocouple calibration source to the unit.  
2. Dial in 1100 degrees centigrade on the calibrator (Note: unit must be programmed for displaying in centigrade).  
3. Adjust the gain pot (see diagram of rear view of instrument) on the back of the instrument until the display reads '1100'.  
4. Short Channel #1's input with a wire or shorting bar (make sure to disconnect the calibrator so as not to damage it).  
5. Push DATA key. The display will read '0002' --- or some other value.  
6. Adjust offset pot on back of instrument (ref. Fig. 3) until the display reads '0000'.  
7. Push PROG key once -- the display will show Cold Junction temperature.  
8. Remove the shorting bar from Channel one input and connect the thermocouple calibrator again.  
9. Repeat steps 2 through 7 till the unit reads proper temperature. Press ‘PROG’ key to step thedisplay to next Channel.  
Input Range Setup (for current and voltage):  
Voltage Range Setup (0-5vdc, 0-10vdc)  
After calibration, the VOLTAGE range may be setup. The display will briefly show 'U rAnGE' (for "Voltage Range"). Then  
the display will show the present setting. Use ^v key (ref. Setup For High Scale) to set the desired VOLTAGE value. Once the  
desired VOLTAGE value is displayed, push SETUP key to enter that value and go to the next step.  
Voltage Range Setup (for millivolt inputs)  
For Millivolt input units (i.e. the units that have millivolt input option instead of thermocouples), the display will first show 'HV  
rnGE' (for "High Voltage Range"). After the High Voltage range is set, the display shows 'LV rnGE' (for "Low Voltage  
Range" i.e. for millivolt input). Enter values for respective inputs.  
Current Range Setup  
After the VOLTAGE range, the CURRENT range may be set. The display will briefly show 'C RANGE' (for "Current  
Range") followed by previous value. Use ^v key (ref. Setup For High Scale) to set the desired CURRENT value. Once the  
correct CURRENT range is displayed, push SETUP key to enter that value and return to 'SYS CH' display.  
Correct Range Settings  
Following RANGE values should be entered for various inputs:  
INPUT  
0-5 Vdc  
RANGE Value  
5.000  
0-10 Vdc  
10.000  
0-100 Mv  
100.0  
4-20 Ma. (loop current)  
20.00  
Setup Examples  
Example #1: Use of the OFFSET Parameter  
Setup for a 4-20ma transducer signal corresponding to 0-500 gallons of fluid (reading in 10th of a gallon resolution):  
DECIMAL POINT  
HIGH SCALE  
LOW SCALE  
= 999.9  
= 500.0  
= 000.0  
OFFSET  
TARE  
= 4.000  
= 0.000  
Example #2: Use of the LOW SCALE Parameter  
Setup for a 4-20ma transducer signal corresponding to 500-2000 degrees Fahrenheit temperature i.e. 500 degrees at 4ma and 2000  
degrees at 20ma (one degree resolution):  
DECIMAL POINT  
HIGH SCALE  
LOW SCALE  
= 9999  
= 2000  
= 500  
OFFSET  
TARE  
= 4.00  
= 0.000  
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FLOW CHART FOR ANALOG INPUT  
SET UP  
SYSTEM OR CHANNEL  
SYSTEM SETUP  
CHANNEL SETUP  
Select Channel  
Voltage or Current Setup  
Thermocouple / RTD / Thermister Setup  
Select Display Option  
1.Scan  
2.High point  
Turn Ch On/Off  
Turn Ch On/Off  
3.Low point  
Select Input Type  
Select Input Type  
4.CH 1 – CH 2  
5.CH 2 – CH 1  
6.Elapsed Time  
Select Display Units  
Degree C/F  
Enter  
Decimal Point  
Enter Display Time  
Enter High Scale  
Enter Process Limits  
(1 thru 3)  
Select Audio alarm On/Off  
Enter Low Scale  
Enter Off Set  
Enter Tare  
Enter Relay Deadband  
Calibrate Cold Junction  
Prog. Relay Latching/  
Non Latching  
Channel Calibration  
Enter Voltage Range  
Enter Current Range  
Select Relays Normally  
Open /Normally Closed  
(Limits 1thru 3)  
Enter Process Limits  
(1 thru 3)  
Enter Relay Deadband  
Prog. Engineering Units  
Enter Rate Time Base  
Prog. Relay Latching/  
Non Latching  
Select Relays Normally  
Open /Normally Closed  
(Limits 1thru 3)  
Prog. Engineering Units  
Enter Rate Time Base  
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FLOW CHART FOR PULSE INPUT:  
SET UP  
Select System or Channel Programming  
Turn CH On/Off  
For System Programing Refer to  
Flow Chart for Analog Input  
SELECT INPUT TYPE  
1. Voltage 2. Current 3. J T/C  
4. K T/C  
5. T T/C  
6. E T/C  
7. Pulse  
Low Freq.  
High Freq.  
Rate  
RPM  
Counter  
Scaler  
Scaler  
Select Counter  
Mode  
Enter Rate Time  
Base  
Select Filter  
Value  
0,1,2,3,4,5  
Division Factor  
Division Factor  
Select Dec.Pt  
Position  
Select Dec.Pt  
Position  
Enter Preset Value  
Enter delay  
Enter Limits  
(1 thru 3)  
Enter Limits  
(1 thru 3)  
Scaler  
Scaler  
Deadband  
Deadband  
Select Dec.Pt  
Position  
Division Factor  
Division Factor  
RelayLatching/  
Non- Latching  
RelayLatching/  
Non- Latching  
Enter Limits  
(1 thru 3)  
Enter Limits  
(1 thru 3)  
Scaler  
Select Limits  
Normally Open /  
Normally closed  
(Limits 1 thru 3)  
Select Limits  
Normally Open /  
Normally closed  
(Limits 1 thru 3)  
Deadband  
Division Factor  
Deadband  
RelayLatching/  
Non- Latching  
Enter Limits  
(1 thru 3)  
RelayLatching/  
Non- Latching  
Deadband  
Select Limits  
Normally Open /  
Normally closed  
(Limits 1 thru 3)  
Select Limits  
Normally Open /  
Normally closed  
(Limits 1 thru 3)  
RelayLatching/  
Non- Latching  
Select Limits  
Normally Open /  
Normally closed  
(Limits 1thru 3)  
Enter Rate Time  
Base  
Enter Rate TimeBase  
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SETUP FOR A PULSE CHANNEL:  
Turning a Channel ON or OFF  
The very first thing after selecting a channel is to turn it on or off. A channel should be turned off if it is not being used. Use ^v  
key to select the desired setting. If a channel is OFF, the display will show 'CHx OFF' (where ‘x’ is the channel number) and  
if it is ON the display is 'CHx ON'. Use ^v key to display the desired ON/OFF setting, and then push SETUP key to go to the  
next parameter.  
MODES OF OPERATION FOR A PULSE INPUT CHANNEL:  
A pulse Channel can operate in any one of the following modes:  
MODE  
DISPLAY SHOWS  
DESCRIPTION  
Counter Mode  
Rate Mode  
RPM mode  
High Frequency Mode  
Low Frequency Mode  
COUntEr  
rAtE  
SyS rP  
HI FrEq  
LO FrEq  
For a Channel being configured as a counter.  
For a Channel being configured as a rate monitor.  
For a Channel being configured as RPM monitor.  
For a Channel being configured as high frequency meter.  
For a Channel being configured as low frequency meter.  
To change operating mode of the system push ^v key. After obtaining the desired mode, push SETUP key.  
The next function to be configured depends on the operating mode selected above. To configure for different modes, look under  
appropriate headings.  
SETUP FOR COUNTER:  
If a channel is setup as a counter, then the following steps have to performed. To abort at any point during the setup, push RESET  
key once to get to the very beginning of SETUP, or push and hold (till SAVING is displayed) to get out of SETUP altogether.  
FUNCTION  
DISPLAY SHOWS  
Cntr 0  
Cntr 1  
Cntr 2  
Cntr 3  
Cntr 4  
Cntr 5  
TO CHANGE  
Push ^v key till  
desired mode is  
selected .  
Counter mode 0  
Counter mode 1  
Counter mode 2  
Counter mode 3  
Counter mode 4  
Counter mode 5  
Preset value entry  
'PrESEt' followed by preset  
value e.g. 10.024 with  
active digit flashing.  
Push ^v key to increment or decrement  
active digit. Push <NXT> key to change  
active digit.  
Relay Delay entry  
'dELAY' followed by preset  
value e.g. 24 with active  
digit flashing.  
Push ^v key to increment or decrement  
active digit. Push <NXT> key to change  
active digit.  
Decimal point  
placement  
dP 9999  
dP 999.9  
dP 99.99  
dP 9.999  
Push ^v key to  
move decimal  
point to desired  
position.  
Scaler  
'SCALER' followed by preset  
Push ^v key to increment or decrement  
Scaler value e.g. 0.00024 with  
active digit. Push <NXT> key to change  
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FUNCTION  
DISPLAY SHOWS  
TO CHANGE  
active digit flashing.  
active digit.  
Division Factor  
'dIV FAC' followed by preset  
division factor e.g. 12 with  
active digit flashing.  
Push ^v key to increment or decrement  
active digit. Push <NXT> key to  
change active digit.  
Limit 1  
Limit 2  
Limit 3  
'CH1 LT1' followed by preset Limit 1  
value e.g. 123.4 with active digit  
flashing.  
Push ^v key to increment or decrement  
active digit. Push <NXT> key to  
active digit.  
For limits 2 &3 CH1 LT2, CH1 LT3  
followed by limit value.  
NOTE: Limit3 is audio visual alarm only  
--- it has no relay output.  
Relay deadband  
'dEAdbd' followed by deadband  
value e.g. 0002  
Push ^v key to increment or decrement  
active digit. Push <NXT> key to make  
next digit active.  
Latching or non -  
'LATCH' for latching mode.  
Push ^v key to obtain alternate mode.  
latching relay setup.  
'NON LCH' for non- latching mode.  
Limit outputs prog-  
rammed as normally  
open or closed  
LT1 N.O. or LT1 N.C  
LT2 N.O. or LT2 N.C  
LT3 N.O. or LT2 N.C  
Use ^V key to obtain  
alternate mode.  
Time base for RATE  
'T BASE' followed by previously  
Push ^v key to increment or decrement active  
calculation (In seconds)  
programmed value e.g. '1.999'  
digit. Push <NXT> key to make next digit active  
SETUP FOR HIGH AND LOW FREQUENCY MONITOR:  
If the unit is setup as a frequency meter, then following SETUP steps are performed.  
FUNCTION  
DISPLAY SHOWS  
TO CHANGE  
Scaler  
'SCALER' followed by preset scaler  
value e.g. 10.00024 with active digit  
flashing.  
Push ^v key to increment or decrement  
active digit. Push <NXT> key to  
change active digit.  
Division Factor  
decrement  
'DIV FAC' followed by preset division  
by preset division factor. (e.g. 12`  
with active digit flashing).  
Push ^v key to inc rement or  
active digit. Push <NXT> key to  
change active digit.  
Limit 1  
Limit 2  
Limit 3  
'CH1 LT1' followed by preset Limit 1  
value e.g. 123.4 with active digit  
flashing.  
Push ^v key to increment or decrement  
active digit. Push <NXT> key to  
active digit.  
For limits 2 &3 CH1 LT2, CH1 LT3  
followed by limit value.  
NOTE: Limit3 is audio visual alarm only  
--- it has no relay output.  
Relay deadband  
'dEAdbd' followed by deadband  
value e.g. 0002  
Push ^v key to increment or decrement  
active digit. Push <NXT> key to make  
next digit active.  
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FUNCTION  
DISPLAY SHOWS  
TO CHANGE  
Latching or non -  
'LATCH' for latching mode.  
Push ^v key to obtain alternate mode.  
latching relay setup.  
'NON LCH' for non latching mode.  
Limit outputs prog-  
rammed as normally  
open or closed  
LT1 N.O. or LT1 N.C  
LT2 N.O. or LT2 N.C  
LT3 N.O. or LT2 N.C  
Use ^V key to obtain  
alternate mode.  
SETUP FOR RATE MONITOR:  
If channel 2 is programmed to operate in RATE mode, then the following steps are performed during SETUP procedure:  
FUNCTION  
DISPLAY SHOWS  
TO CHANGE  
Time base for RATE  
'rAtE tb' followed by previously  
Push ^v key to increment or decrement active  
calculation (In seconds)  
programmed value e.g. '1.999'  
digit. Push <NXT> key to make next digit active  
Decimal point  
placement  
dP 9999  
dP 999.9  
dP 99.99  
dP 9.999  
Push ^v key to  
move decimal  
point to desired  
position.  
Scaler  
'SCALER' followed by preset scaler  
value e.g. 10.00024 with active digit  
flashing.  
Push ^v key to increment or decrement  
active digit. Push <NXT> key to change  
active digit.  
Division Factor  
'DIV FAC' followed by preset division  
by preset division factor. (e.g. 12`  
with active digitflashing).  
Push ^v key to increment or decrement  
active digit. Push <NXT> key to  
change active digit.  
Limit 1  
Limit 2  
Limit 3  
'CH1 LT1' followed by preset Limit 1  
value e.g. 123.4 with active digit  
flashing.  
Push ^v key to increment or decrement  
active digit. Push <NXT> key to  
active digit.  
For limits 2 &3 CH1 LT2, CH1 LT3  
followed by limit value.  
NOTE: Limit3 is audio visual alarm only  
--- it has no relay output.  
Relay deadband  
'dEAdbd' followed by deadband  
value e.g. 0002  
Push ^v key to increment or decrement  
active digit. Push <NXT> key to make  
next digit active.  
Limit outputs prog-  
rammed as normally  
open or closed  
LT1 N.O. or LT1 N.C  
LT2 N.O. or LT2 N.C  
LT3 N.O. or LT2 N.C  
Use ^V key to obtain  
alternate mode.  
SETUP FOR RPM MONITOR:  
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If the unit is setup as an RPM monitor then following steps are performed for setting up various parameters:  
FUNCTION  
DISPLAY SHOWS  
TO CHANGE  
Filter value  
1,2,4,6,10,15,20,30,60  
Push ^v key to obtain desired value  
Decimal point  
placement  
dP 9999  
dP 999.9  
dP 99.99  
dP 9.999  
Push ^v key to  
move decimal  
point to desired  
position.  
Scaler  
'SCALER' followed by preset scaler  
value e.g. 10.00024 with active digit  
flashing.  
Push ^v key to increment or decrement  
active digit. Push <NXT> key to change  
active digit.  
Division Factor  
'DIV FAC' followed by preset division  
by preset division factor( e.g. 12`  
with active digit flashing).  
Push ^v key to increment or decrement  
active digit. Push <NXT> key to  
change active digit.  
Limit 1  
Limit 2  
Limit 3  
'CH1 LT1' followed by preset Limit 1  
value e.g. 123.4 with active digit  
flashing.  
Push ^v key to increment or decrement  
active digit. Push <NXT> key to  
active digit.  
For limits 2 &3 CH1 LT2, CH1 LT3  
followed by limit value.  
NOTE: Limit3 is audio visual alarm only  
--- it has no relay output.  
Relay deadband  
'dEAdbd' followed by deadband  
value e.g. 0002  
Push ^v key to increment or decrement  
active digit. Push <NXT> key to make  
next digit active.  
Latching or non -  
'LATCH' for latching mode.  
Push ^v key to obtain alternate mode.  
latching relay setup.  
'NON LCH' for non latching mode.  
Limit outputs prog-  
rammed as normally  
open or closed  
LT1 N.O. or LT1 N.C  
LT2 N.O. or LT2 N.C  
LT3 N.O. or LT2 N.C  
Use ^v key to obtain  
alternate mode.  
ALARM OUTPUTS:  
Status:  
The system has optional process alarm outputs that are activated when limit is exceeded on any of the two channels. The alarms  
can be programmed as normally open or normally closed (see SETUP) and latching or non-latching. The status of these alarms is  
indicated on the front panel by LEDs. When ever an alarm is activated the respective LED is turned on. Each channel has two  
outputs (relay or open collector) and one audio visual alarm. Audio visual alarm provides a visual indication on the front panel  
(LED) and a buzzer output if a programmed limit value is exceeded. Buzzer can be turned off, if so desired (look under SETUP).  
Resetting:  
Once energized, alarms can be reset in two different ways --- automatically or manually (non latching or latching). In non-  
latching mode, the alarm outputs will de-energize on their own when process variable drops below the limit value. In latching  
mode, they stay energized even if the process variable drops below the limit. To reset the energized outputs in the latching mode,  
first make the display indicate the limit that needs to be reset (e.g. "CH1 LT2"), by pushing the DATA key. Next, keeping the  
DATA key pushed while limit value is displayed, go on to push the RESET key. The respective alarm output will de-energize  
and the system will indicate so by displaying RLY RST.  
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NOTE: Process value for respective relay must be below limit value for it to reset. Other wise the key sequence will be ignored.  
Open Collector (solid state) output Option:  
DP3300 units can be ordered with either open collector outputs or electro-mechanical relays. (Check model number printed on  
the unit for option). If ordered with open collector outputs, then these outputs are programmed during Setup to operate as either  
Normally Open (NO) or Normally Closed (NC). The default setting is Normally Open.  
Whenever a limit is reached, an open collector output provides a 5 Vdc signal at 50milliamp on the output connector, eg.. Limit  
#1 provides its 5 volt output signal between pins 1 and 2.  
Figure 1. Open Collector Hookup Example  
+OUTPUT  
Instrument  
1
LOAD  
-OUTPUT  
2
Electro-Mechanical Relay Option:  
DP3300 units can be ordered with either open collector outputs or electro-mechanical relays. (Check model number printed on  
the unit for option). If ordered with relays, then these relays are programmed during Setup to operate as either Normally Open  
(NO) or Normally Closed (NC). The default setting is Normally Open. Each of these limit relays provides a switched output  
whenever a limit is reached. The maximum rating for a 120Vac unit is 120Vac @ 0.5 amp or 28 Vdc @ 1.0 amp. A 240Vac unit  
is rated at 240Vac @ 0.25 amp. or 28Vdc @ 1.0 amp.  
Figure 2. Electro-mechanical Relays Hookup Example  
OUTPUT CONNECTOR  
Instrument  
8
Switched Output  
7
LIMIT # 4  
120 VAC @ 0.5 AMPS  
6
Switched Output  
5
LIMIT # 3  
120 VAC @ 0.5 AMPS  
120 VAC @ 0.5 AMPS  
4
2
Switched Output  
Switched Output  
3
1
LIMIT # 2  
LIMIT # 1  
120 VAC @ 0.5 AMPS  
LIMIT RELAYS  
NOTE: LOOK UNDER SPECIFICATIONS FOR RATING ON RELAYS & OPEN COLLECTOR OUTPUTS.  
UNDER NO CONDITION SHOULD THE RELAYS & OPEN COLLECTOR OUTPUTS BE OPERATED  
BEYOND THEIR RATED CAPACITY. DOING SO CAN DAMAGE THE UNIT PERMANENTLY.  
POWER  
Power connection should be made to the three terminal connector as shown in figure 3. Also, make note that it is very important  
that the power line inputs and the power ground are not switched. Doing so will permanently damage the instrument. Refer to the  
schematic for proper connections. For convenience, the printed circuit board is labeled L1 L2 GND on the under side of  
three terminal power connector.  
For instruments with the 12Vdc power option, refer to Figure 3.  
NOTE: WHILE MAKING POWER CONNECTION TO THE UNIT, MAKE SURE THAT AC POWER  
LINE L1 OR L2 IS NOT ACCIDENTALLY CONNECTED INTO THE GROUND (GND)  
TERMINAL. THIS WILL RESULT IN PERMANENT DAMAGE TO THE INSTRUMENT.  
DOUBLE CHECK THE CONNECTIONS BEFORE APPLYING POWER!!  
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FIG. 3: Power, Input/Output connections & rear view of the  
instrument.  
VOLTAGE ADJUST  
CURRENT ADJUST  
OFFSET  
ADJUST  
(For MV, T/C)  
INPUT/OUTPUT CONNECTOR  
POWER  
_
13 12  
_
_
_
15  
GAIN  
ADJUST  
(For MV, T/C  
RTD, Thermistor)  
+
G
+
+ +  
10 9  
11  
8
7
6
5
4
3
2
1
L1 L2  
14  
N
D
16  
CH1 CH2  
PULSE PULSE  
INPUT INPUT  
CH1 CH2  
ANG ANG  
INPUT INPUT  
POSITIVE  
SUPPLY  
NEGATIVE  
SUPPLY  
(FOR DC POWER SUPPLY OPTION)  
INPUT/OUTPUT CONNECTOR PIN ASSIGNMENTS  
PIN NO  
DESCRIPTION  
1
2
3
4
5
6
7
8
CHANNEL1, LIMIT 1 NORMALLY OPEN/OPEN COLLECTOR NEGATIVE  
CHANNEL1, LIMIT 1 COMMON/OPEN COLLECTOR POSITIVE  
CHANNEL1, LIMIT 2 NORMALLY OPEN/OPEN COLLECTOR NEGATIVE  
CHANNEL1, LIMIT 2 COMMON/OPEN COLLECTOR POSITIVE  
CHANNEL2, LIMIT 1 NORMALLY OPEN/OPEN COLLECTOR NEGATIVE  
CHANNEL2, LIMIT 1 COMMON/OPEN COLLECTOR POSITIVE  
CHANNEL2, LIMIT 2 NORMALLY OPEN/OPEN COLLECTOR NEGATIVE  
CHANNEL2, LIMIT 2 COMMON/OPEN COLLECTOR POSITIVE  
CHANNEL 2 PULSE INPUT – POSITIVE (+)  
9
10  
11  
12  
13  
14  
15  
16  
CHANNEL2 PULSE INPUT – NEGATIVE (-)  
CHANNEL 1 PULSE INPUT – NEGATIVE (-)  
CHANNEL 1 PULSE INPUT – POSITIVE (+)  
CHANNEL 2 ANALOG INPUT – POSITIVE (+)  
CHANNEL 2 ANALOG INPUT – NEGATIVE (-)  
CHANNEL 1 ANALOG INPUT – NEGATIVE (-)  
CHANNEL 1 ANALOG INPUT – POSITIVE (+)  
NOTE: PINS ON THE CONNECTOR OTHER THAN THE ONES DESIGNATED ABOVE MUST NOT BE CONNECTED  
TO ANY SIGNAL UNDER ANY CIRCUMSTANCES. ALSO PROPER CONNECTION AND CORRECT ORIENTATION  
OF THE CONNECTOR ARE NECESSARY TO AVOID MALFUNCTION OR PERMANENT DAMAGE TO THE  
INSTRUMENT.  
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MOUNTING  
3.70” (94mm)  
0.15” dia. (3.81mm)  
1.77”  
(45mm)  
4.05” (102.87mm)  
Figure 4. Panel Cutout Dimensions  
1. Cut out Panel and mounting hole dimensions as shown in figure 8 above.  
2. Remove the nuts from the mounting screws on the Panel Meter (see picture below).  
3. Insert panel meter into the hole until it is flush with the panel.  
Install the nuts and tighten them till the unit is held firmly against the panel.  
1. Remove nuts and insert Panel  
Meter and screws in mounting holes  
in the panel cut out.  
2. Tighten the nuts, after mounting  
the unit in the panel cut out, till the  
unit is held firmly against the panel.  
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