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Warnings, Cautions, Notes, and Tips Refer all service to qualified personnel. This symbol wa rns of possible personal injury or equipment damage under noted conditions. Follow all safety standards of professiona l practice and the recommendations in this manual.
iv Your order was carefully inspected prior to shipment. When you receive your order, carefully unpack all item s from the shipping carton and check for physical si gns of damage that may have occurred during shipment . Promptly report any dam age to the shipping agent and your sales representative.
DaqBoard/3000 Series User’s Manual 917394 vii T able of Contents DaqBoard I nstallation Guide (p/n 1033-0940) 1 – Device Overviews Block Diagrams ….
viii 907994 DaqBoard/3000 Series User’s Manual 6 – Setpoint Configuration for Output Control Overview …… 6-1 Detecting Input Values …… 6-3 Controlling Analog, Digital, and Timer Outputs .
This product requires one of the following Op erating Systems: Windows 2000 Windows XP.
DaqBoard Inst allation Guide This guide tells how to co m plete th e fo llowing steps for a successful installation. Step 1 – Install Softw are …… page 2 Step 2 – Install Boards in Available PCI Bus-Slots …… page 3 Step 3 – Configure Boards ….
1033-0940, rev 8.0 918494 DaqBoard Installation Guide IG- 3 Reference Note : Adobe PDF versions of user manuals will automatically install onto you r hard drive as a part of product support. The default location is in the Programs group, which can be accessed from the Window s Desktop .
Step 2 – Install Boards in available PCI Bus-slots IMPORTANT : Software must be installed before installing hardware. CAUTION Turn off power to, and UNPLUG the host PC a nd externally connected equipment prior to removing the PC’s cover and installing the DaqBoa rd.
7. Refer to the figure at the ri ght. Align the groove in the DaqBoard’s PCI edge-connector with the ridge of t he desired PCI slot, and with t h e PC’s corresponding rear- panel slot. 8. Push the board firmly into the PCI slot. The bo ard will snap into po s itio n.
1. Run the Daq Configuration control panel applet . Navigation from the desktop to the applet is as follo ws: Start ⇒ Settings ⇒ Control Panel ⇒ Daq*Configuration (double-click) 2. Double-click on the Device Invent ory’s DaqBoard1K0, 2K0, or 3K0 icon, as applicable.
Step 4 – T est Hardware Use the following steps to test the DaqBoard. Note that these steps are continued from those li sted under the previous section, “Configure Board.” 1. Select the “ Test Hardware” tab. 2. Click th e “ Resource Test ” butt on.
IG- 8 DaqBoard Installation Guide 918494 1033-0940, rev 8.0.
Device Overviews 1 Block Diagrams …… 1-1 Connections …… 1-2 Product Features …… 1-3 Software ……1-13 DaqView can only be used with one DaqBoar d at a time. DASYLab and LabView can be used with multiple boards. For multiple b oard use (via custom programming) refer to the Using Multiple Devices section of the Programmer’s Manual .
1-2 Daq Systems and Device Overviews 988093 DaqBoard/3000 Series User’s Manual Block Diagram for DaqBoard/3005 and / 3006 * Note : DaqBoard/3006 has 16 single-ended analog inputs; ±10V input range only; it has no differential input. DaqBoard/3006 has no HDMI interface.
Product Features I/O Comparison Matrix Product or System Analog Input Channels Input Ranges Analog Output Channels Digital I/O Channels Counter Inputs Timer Outputs DaqBoard/3000 16SE / 8DE 7 2 24 4 2.
1-4 Daq Systems and Device Overviews 988093 DaqBoard/3000 Series User’s Manual Signal I/O One 68-pin connector provides access to the 16SE/8D E analog input channels, 24 digital I/O lines, counter/timer channels, and analog outputs (when applicable).
Another synchronous mode al lows digital inputs to be scanned every tim e an analog input channel is scanned. For example, if eight analog inputs are sca nned at 1 µsec per channel continuously, and 24 bit s of digital inputs are enabled, th en the 24 bits of digital inputs will be scanned at 24 bits per 1 µsec.
1-6 Daq Systems and Device Overviews 988093 DaqBoard/3000 Series User’s Manual Example 2: Analog channel scanning of voltage and temperature inputs The figure below shows a more com plicated acquisition. The scan is programm ed pre-acquisition and is made up of 6 analog channels (Ch0, Ch2, Ch5, Ch11, Ch22, Ch23.
Example 3: Analog and digital channel scanning, once per scan mode The figure below shows a more com plicated acquisition. The scan is programm ed pre-acquisition and is made up of 6 analog channel s (Ch0, Ch2, Ch5, Ch11, Ch22, Ch25) and 4 digital channel s (16-bits of digital IO, 3 counter inputs.
1-8 Daq Systems and Device Overviews 988093 DaqBoard/3000 Series User’s Manual Example 4: Sampling digital inputs for every analog sample in a scan group The figure below shows another acquisition.
DaqBoard/3000 Series User’s Manual 988093 Daq Systems and Device Overviews 1-9 Bus Mastering DMA The DaqBoard/3000 series supports Bus Mastering DMA.
1-10 Daq Systems and Device Overviews 988093 DaqBoard/3000 Series User’s Manual o Variable pre-trigger with post trigger stop event . Unlike the previous pre-tri gger modes, this mode does not have to sati sfy the pre-trigger number of readings before recognizing the t r igger event.
Digital Inputs and Outputs Twenty-four TTL-level digital I/O lines are included in each of the DaqBoard/3000 Series boards. Digital I/O can be programm ed in 8-bit groups as either i nputs or outputs and can be scanned in several modes (see Input Scanning ).
1-12 Daq Systems and Device Overviews 988093 DaqBoard/3000 Series User’s Manual This example has al l 4 DACs being updated and the 16-bits of digital IO. These updat es are performed at the same time as the acquisition pacer clock (also calle d the scan clock.
DaqBoard/3000 Series User’s Manual 988093 Daq Systems and Device Overviews 1-13 Timer Outputs Two 16-bit timer outputs are built into every 3000 series board. Each timer is capable of generating a different square wave with a program mable frequency in the range of 16 Hz to 1 MHz.
1-14 Daq Systems and Device Overviews 988093 DaqBoard/3000 Series User’s Manual Ready-to-use programs are convenien t for fill-in-the-blank applications that do not require program ming for basic data acquisiti on and display: • DaqView is a Windows-based program for basic se t-up and data acquisition.
Connections and Pinout s 2 Overview …… 2-1 Pinout for DaqBoard/3000 Series Boards …… 2-2 TB-100 Terminal Connector Option …… 2-3 PDQ30 Analog Expansion and DBK215 Connector Options …… 2-4 CAUTION Turn off power to all devices connected to the system before connecting cables or setting configuration jumpers and switch es.
Pinout for DaqBoard/3000 Series Boards Pin numbers refer to the 68-pi n S C S I female connector, located on the DaqBo ard/3000. Function Pin Pin Function Analo g input C hannel 8 34 68 Analo g input .
TB-100 T erminal Connector Option The TB-100 Terminal C onnector option can be used to connect all signal I/O lines that are associat ed with a DaqBoard/3000 Series device. TB-100 connects to the DaqBoard’s 68-pin SC SI connector via a 68-conductor cable: p/n C A-G55, CA-G56, or CA-G56-6.
PDQ30 Analog Expansion and DBK215 Connector Options 2-4 Connections & Pinouts 918494 DaqBoard/3000 Series User’s Manual PDQ30 Analog Expansion Modul e DBK215 16 BNC Connector M odule DaqBoard/3000 Series boards can connect to opti onal devices through either or both of the board’s orb connectors.
DBK215 If you are not using a TB-100 term inal board connec tion option with y our DaqBoard/3000 Series board you can, instead, ma ke use of a DBK215 module.
System Example A DaqBoard/3000 Series sy stem exam ple which includes both a PDQ30 and a DBK215 is illustrated on page 2-4. For convenience, it has been repeated below. In regard to the PDQ30 aspect: 1) Connection from PDQ30 to DaqBoard/3000 is made via a CA-266-3 (or C A-266-6) HDMI cable.
PDQ30 Terminal Block Pinouts (TB1 through TB6) PDQ30 can measure 48 channels of volt age or 24 channels of temperature. The temperature measurem ent requires the use of Differential Mode. Reference Notes : For PDQ30 specifications, refer to chapter 6.
2-8 Connections & Pinouts 918494 DaqBoard/3000 Series User’s Manual.
CE-Compliance 3 Overview ……3-1 CE Standards and Directives …… 3-1 Safety Conditions ……3-2 Emissions/Immunity Conditions ……3-2 Overview CE standards were developed by the European Un ion (EU) dat ing from 1985 and include specifications both for safety and for EMI em issions and immunit y.
For clarification, term s used in some Declarations of Conform ity include: • pollution degree : any addition of forei gn matter, solid, liquid or gaseous (i onized gases) that may produce a reduction of dielectric st rength or surface resistivity.
Calibration 4 DaqBoard/3000 Series boards are factory-cali b rated. Ho wever, if adjustments are needed they should be completed in the following o rder: 1. Analog Measurement Path, Offset and Gain 2. Voltage Reference 3. DAC0 Offset and Gain * 4. DAC1 Offset and Gain * 5.
4-2 Calibration 918494 DaqBoard/3000 Series User’s Manual.
DaqCal User Calibration Utility Contents Overview …… i Equipment …… ii NIST Traceability …… iii Installing DaqCal …… iii Setup …… iii What to Expect when using DaqCal …… v Cali.
pg. ii_DaqCal 918494 User Calibration Guide, 457-0931 rev 1.0 Equipment Refer to the appropriate block below , depending on whether you w ill be calibrating through a 37-pin, 68-pin, or 100-pin connector . P1 37-PIN If calibration signals w ill be passing th rough a 37-pin P1 connector you w ill need : Required : 6.
NIST T raceability Calibration test equipment should be traceable through the National Institu te of Standard s and Technology. (NIST). Customers not familiar with traceability through that institute should contact them at traceability@nist.gov The NIST Policy on Traceability (contained in NIST Administrative Manual, Subchapter 5.
P1 (37-pin) For DB37 P1 applications you can at tach a DBK11A to the device via a CA-37 cable. Connecting a DBK11A P4 (100-pin) For 100-pin P4 connector applications you can use a DB K200 (or DBK201), DBK11A, and a CA-195 cable; or you could use a DB K213 and a CA-195 cable.
After you have completed the setup according to the type of device and appropr iate connectivity option, launch DaqCal and follow the on-screen i nstructions. What to Expect when using DaqCal When DaqCal open s you will be prompted to select your device from a list.
From the screen’s Cal ibration List (right-hand figure), select the desired types of cal ibration. In the example shown we have selected: o Channel Offset A/D (Single-Ended) o Channel Gain A/D (Single-Ended) After making the selections, click the <Calibrate> button (see preceding figure).
Calibrating Analog Outputs After launching DaqCal, sel ect the device to be calibrated from the device invent ory list. After selecting your device, click th e <OK> b utton. An instruction screen with a Calibration List will display. From the screen’s Calibrat ion List select the desired types of calibration.
Calibrating DBK Expansion Options If the primary data acquisition device (DaqBook, or DaqB oard) is out of its calibration period, calibrate that device prior to calibrating the DB K expansion option. An alternative to using DaqCal is to contact the factory or your service representative to schedule a factory calibration.
Counter Input Modes 5 Debounce Module …… 5-1 Terms Applicable to Counter Mode s…….5-5 Counter Options …… 5-5 Counter/Totalize Mode …… 5-6 Period Mode …… 5-8 Pulsewidth Mode …… .
Trigger After Stable Mode In the “Trigger After Stable” mode , the output of the debounce m odule w ill not change state until a period of stability has been achieved. This means that the input has an edge a nd then must be stable for a period of time equal t o the debounce time.
T2 – During time period T2, t he input signal is not stable for a length of t ime equal to T1 (the debounce time sett ing for this example.) Therefore, the output stays “hi gh” and does not change state during time peri od T2.
Use trigger before stable mode when the input signal has groups of glitches and each group is to be counted as one. The trigger before stable mode will recognize and count the first glitch within a group but reject the subsequent glitches within the group if the debounce time is set accordingly.
DaqBoard/3000 Series User’s Manual 918494 Counter Input Modes 5-5 Terms Applicable to Counter Modes The following term s and definitions are provided as an aid to understanding count er modes. Gating: Any counter can be gated by t h e mapped channel.
Encoder Mode (see page 15). OPT[1:0] : Determ ines the encoder measurement mode: 1X, 2X, or 4X. OPT2 : Determines whet her the counter is 16-bits (Counter Low); or 32-bits (C ounter High). OPT3 : Determines whic h signal latches the counter outputs into the data stream going back to the /3000 Series board.
An explanation of the various counter opt ions, depicted in the previous figure, follows. COUNTER: OPT0: This selects totalize or clear on read mode. Totalize Mode – The counter counts up and rolls over on the 16-bit (Low Counter) boundary, or on the 32-bit (High Counter) boundary .
Period Mode TIP: When using a counter for a trigger source , it is a good idea to use a pre-trigger with a value of at least 1. The reason is that all counters start at zero with the in itial scan; and there will be no valid reference in regard to rising or falling edge.
DaqBoard/3000 Series User’s Manual 918494 Counter Input Modes 5-9 PERIOD: OPT[1:0]: Determines the number of periods to time, per measurement . This makes it possible to average out jitter in the input waveform, sam pling error, noise, etc.
5-10 Counter Input Modes 918494 DaqBoard/3000 Series User’s Manual Upper 16-bits of the 32-bit counter Lower 16-bits of the 32-bit counter Range (Hz) Ticksize (nS) Averaging Option Range (Hz) Ticksize (nS) Averaging Option 15u – 1500u 20833.333 1 1 – 100 20833.
Pulsewidth Mode TIP: When using a counter for a trigger source , it is a good idea to use a pre-trigger with a value of at least 1. The reason is that all counters start at zero with the in itial scan; and there will be no valid reference in regard to rising or falling edge.
5-12 Counter Input Modes 918494 DaqBoard/3000 Series User’s Manual PULSEWIDTH: OPT2: Determines whether t h e pulsewidth is to be measured with a 16-bit (Count er Low), or 32-bit (counter High) counter.
Timing Mode TIP: When using a counter for a trigger source , it is a good idea to use a pre-trigger with a value of at least 1. The reason is that all counters start at zero with the in itial scan; and there will be no valid reference in regard to rising or falling edge.
An Example of Timing Mode The following exampl e represents one channel in timing mode. The t ime desired is between the rising edge on the input channel and the fall ing edge on the mapped channel . Zeroes are returned, in the scan, until one complete time measurement has been taken.
Encoder Mode TIP: When using a counter for a trigger source , it is a good idea to use a pre-trigger with a value of at least 1. The reason is that all counters start at zero with the in itial scan; and there will be no valid reference in regard to rising or falling edge.
Representation of Quadrature Encoder Output s: A, B, and Z As the encoder rotates, the A (or B) sign al is in di cative of the distance the en coder has traveled.
ENCODER: OPT[1:0]: This determi nes the encoder measurement mode: 1X, 2X, or 4X. ENCODER: OPT3: This determi nes which signal latches the counter outputs into the dat a stream going back to the /3000 Series board. Normal ly, the start of scan signal latches the counter output s at the beginning of every scan.
Wiring for 1 Encoder The following figure illustrates connections for one encoder to a 68-pin SCSI connector on a DaqBoard/3000 Series board. The “A” signal must be connected to an even-numbered channel and the associated “B” signal must be connected to the next [h igher] odd-numbered channel.
A typical acquisition might ta ke 6 readings off of the 3000 Series boa rd module as illustrated below. The user determines the scan rat e and the number of scans to take. DaqBoard/3000 Series board Acquisitio n of Six Readings per Scan Note : Digital channels do not take up analog channel scan time.
Wiring for 2 Encoders The following figure illustrates single- ended connections for two encoders . Differential connections are not applicable. Two Encoders Connected to pins on the SCSI C o nnector* * Connections can instead, be m ade to the associated screw-terminals of a connected TB-100 terminal connector option.
Setpoint Configuration for Output Control 6 Overview …… 6-1 Detecting Input Values …… 6 -3 Controlling Analog, Digital, and Timer Outputs …… 6-4 P2C, DAC, or Timer Update Latency …… 6-.
DaqBoard/3000 Series boards include a setpoi nt configur ation feature which allows the user to indi vidually configure up to 16 detection setpoi nts associated with channels within a scan group.
Detecting Input V alues All setpoints are program med as part of the pre-acquisition setup, si milar to setting up the analog pat h , debounce mode, or counter mode setup. Since each setpoint acts on 16-bit data, each has two 16-bit compare values: Limit A (High Lim it) and Limit B (Low Limit).
Controlling Analog, Digital, and T imer Outputs Each setpoint can be program med with an 8-bit digita l output byte and corresponding 8-bit m ask byte. When the setpoint criteria has been m et, the P2C digital output port can be updated with the given byte and mask.
The setting of a detection wi ndow must be done with a scan period in mind. Thi s applies to analog inputs and counter inputs. Quickly changing analog input voltages can step over a setpoint wi ndow if not sampled ofte n enough.
P2C, DAC, or T imer Update Latency Setpoints allow DACs, t imers, or P2C digital output s to be updated very quickly. Exactly how fast an output can be updated is dete rmined by the following three factors: o scan rate o synchronous sampling mode o type of output to be updated Example : We set an acquisition to have a scan rate of 100 kHz.
More Examples of Control Outputs Detection on an Analog Input, DAC and P2C Updates Update Mode: Update on True and Fal se Criteria: Ch 5 example: Below Lim it; Ch 4 example: Inside Window In this exam.
In the example [upper portion of the preceding figur e], the setpoint placed on analog Channel 5 updated DAC1 with 0.0V. The update occurred when Channel 5’s i nput was less than the setpoint (Limi t A). When the value of Channel 5’s input was above setpoint Limit A, the condition of <A was false and DAC1 was then updated with minus 1.
Using the Hysterisis Function Update Mode: N/A, the Hysterisis option has a forced update built into the function Criteria Used: wi ndow criteria for above and below the set limits The figure below shows analog input Channel 3 with a setpoint which defines two 16-bit li mits, Limit A (High) and Limit B (Low).
Using Multiple Inputs to Control One DAC Output Update Mode: Rising Edge, for each of 2 channels Criteria Used: Inside Window, for each of 2 channels The figure below shows how multiple inputs can update one output. In the following figure the DAC2 analog output is being updat ed.
DaqBoard/3000 Series User’s Manual 908794 Setpoint Configuration for Output Control 6-11 The Setpoint S tatus Register Regardless of which software appl ication you are us ing with a DaqBoard/3000 Series devi ce, a setpoint status register can be used to check the current st ate of the 16 possible setpoints.
6-12 Setpoint Configuration for Output Control 908794 DaqBoard/3000 Series User’s Manual.
S pecifications – DaqBoard/3000 Series and PDQ30 7 DaqBoard/3000 Series Specifications I/O Comparison Matrix Product or System Analog Input Channels Input Ranges Analog Output Channels Digital I/O C.
7-2 Specifications 988093 Note : Specifications are subjec t to change without notice. Maximum Usable Input Voltage + Common Mode Voltage Ranges Maximum (CMV + V in ) 0.
Note : Specifications are subject to change without notice. 988093 Specifications 7-3 External Acquisition Scan Clock Input Maximum rate : 1.0 MHz Clock Signal Range : Logical zero 0V to 0.
7-4 Specifications 988093 Note : Specifications are subjec t to change without notice. Analog Outputs Applicable to DaqBoard/3000 and /3001 only Analog output channels are updated sync hronously relative to scanned inputs, and clocked from either an internal onboard clock, or an external clock source.
Pattern Generation Output Two of the 8-bit ports can be configured for 16-bit pa ttern generation. The pattern can be updated synchronously with an acquisition at up to 12 MHz.
7-6 Specifications 988093 Note : Specifications are subjec t to change without notice. Frequency/Pulse Generators One Timer Channel, Typical Channels : 2 x 16-bit Output Wav eform : Square wave Output Rate : 1 MHz base rate divided by 1 to 65535 (programmable) High Lev el Output Voltage : 2.
Note : Specifications are subject to change without notice. 988093 Specifications 7-7 PDQ30 Specifications General Operating Temperature: -30 ˚ to +70 ˚ C Storage Temperature: -40 ˚ to +80 ˚ C Pow.
7-8 Specifications 988093 Note : Specifications are subjec t to change without notice. PDQ30 Type T Thermocouple Typical Performance of 12 PDQ30 Units; 0°C (Note 1) -1.5 -1.0 -0.5 0.0 0.5 1.0 1.5 0 5 10 15 20 Channel Error ( °C ) Note 1: Assumes 16384 oversampling applied, CMV = 0.
Appendix A DBK215 16-Connector BNC Connection Module With 68-Pin SCSI Adaptability for Analog I/O, Digital I/O, & Pulse/Frequency Overview …… 1 Block Diagram …… 2 Connection Tips…… 3 S.
DBK215, pg. A-2 886994 Appendix A TB15 supports BNCA thru BNCD TB16 Supports BNCE thru BNCF DBK215 Block Diagram * Accessory Kit p/n 1139-0800 includes jumper wires and a screw driver. Note that the 68-pin SCSI (P5) connector t ypically connects to a SCSI connector via a CA-G55, CA-G56, or CA-G56-6 cable.
Connection T i ps CAUTION Turn off power to the host PC and externa lly connected equipment prior to connecting cables or signal lines to DBKs. Electric sh ock or damage to equipment can result even under low-voltage conditions. Take ESD precautions (packaging, proper handling, grounded wrist strap, etc.
DBK215, pg. A-4 948894 Appendix A System Example DBK215 and PDQ30 Connection to a DaqB oard/3000 Series Board Notes regarding the ab ov e system example : 1) Any of three 68-conductor SCSI ribbon cables can be used to connect the DBK215 to the board’s SCSI.
Using the Screw-T erminal Blocks You must remove the DBK215 m odule’s cover pl ate to access the screw terminal blocks. This is described in steps 1 and 2 bel o w. 1. Remove the top inward screws from each of th e 4 mounting brackets. See following figure.
DBK215, pg. A-6 948894 Appendix A In general, the following terminal block-t o-signal relationships apply : DBK215 Terminal Blocks Used for . . . Alternativ e TB9 TB10 ANALOG INPUT BNC 0 thru 7 TB11 T.
Analog I/O Correlation to 68-pin SCSI Also see “Correlation to BNC Terminations (TB13 and T B14) on page DBK215-10.” TB9 Pin Number and Description DIFF SE 0H 0 68 CH 0 IN (Single-Ended Mode) / CH.
DBK215, pg. A-8 948894 Appendix A Digital I/O Correlation to 68-pin SCSI TB5 Pin Number and Description DGND ** Digital Ground, Common DGND ** Digital Ground, Common A7 49 Digital I/O: Port A, Bit 7 A.
Pulse/Frequency Correlation to 68-pin SCSI TB1 Pin Number and Description D0 N/A P3 Digital Port Bit 0 D1 N/A P3 Digital Port Bit 1 D2 N/A P3 Digital Port Bit 2 D3 N/A P3 Digital Port Bit 3 TB1 is NOT.
DBK215, pg. A-10 948894 Appendix A Correlation to Analog Input BNC Terminations – BNC 0 through BNC 7 “Virtual” Terminal Blocks TB13 and T B 14 for ANALOG INPUT c onnect to TB9 and TB10 through the printed circuit board.
Adding Resistor/Capacitor Filter Networks WARNING Disconnect the DBK215 from po wer and signal sources prior to installing capacitors or resistors. CAUTION Ensure wire strands do not short power supply connections to any terminal potential. Failure to do so could result in damage to equipment.
DBK215, pg. A-12 948894 Appendix A • Do not use RC filters in conjunction with additional DBK expansion accessories. • Prior to installing a resistor to the filter network you must drill a 1/16” hole through the center pinhole [beneath the board’s silkscreen resistor symbol] as indicated in the preceding figure.
Appendix A 948894 DBK215 A-13 Specifications for DBK215 Operating Environment : Temperature : -30°C to 70°C Relative Humidity : 95% RH, non-condensing Connectors : P5 : 68-Pin SCSI Screw Terminals : 14 banks of 10-connector blocks Wire Size: 12 T O 28 AWG Dimensions : 285 mm W x 220 mm D x 45 mm H (11” x 8.
DBK215, pg. A-14 948894 Appendix A.
Appendix B 907994 Hardware Analog Level Trigger B-1 Appendix B Hardware Analog Level Trigger An Important Note Regarding Hardware Analog Level Trigger and Comparator Change State Issue : When the star.
B-2 Hardware Analog Level Trigger 90794 Appendix B.
Glossary 959395 G-1 Glossary Acquisition A collection of scans acquired at a specif ied rate as controlled by the sequencer. Analog A signal of varying voltage or current that communicates data.
G-2 959395 Glossary Differential mode voltage Differential mode voltage refers to a voltage di fference between two signals that are referenced to a common point. Example: Signal 1 is +5 VD C referenced to common. Signal 2 is +6 VDC referenced to common.
W ARRANTY / DISCLAIMER OME GA ENGI NEER ING, INC . war rant s thi s uni t to be free of defe cts in mate rial s and work mansh ip for a per iod of 13 m onth s fro m da te of purch ase. OMEGA ’ s W ARRANTY adds an additional one (1) mont h grace period to the normal one (1) year product warrant y to cover handling and shipping time.
M 42 54 / 0 106 Where Do I Find Ever ything I Need for Pr ocess Measurement and Contr ol? OM EGA…Of Course! Shop online at omega.com TEMPERA TURE 䡺 ⻬ Thermocouple, RTD & Thermistor Probes, C.
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