Model self contained, powered, signal conditioning module bridge type

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Model self contained, powered, signal conditioning module bridge type

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Model Bridgesensor
Model self contained, powered, signal conditioning module bridge type instrumentation. contains precision differential instrumentation amplifier with filtered output highly regulated, noise, adjustable output bridge excitation source. unit completely encapsulated rugged environments.
Rugged, Compact Fully Encapsulated Complete System Just Power Ready with Screwdriver Wiring Stable Accurate
Applications
Weighing with Load Cells Long Term Structural Monitoring Process Control Pressure Transducers Temperature Controls Using Thermocouples Frequency Strain Measurements
Transducer Excitation
Transducer bridge excitation provided line powered, adjustable, well regulated, noise power supply. excitation voltage adjusted means molded-in potentiometer, which allows output voltage varied from Volts. output ripple extremely line load regulation 0.05%. sense lines minimize variations output voltage with changes load current lead resistance. should noted that sense feature being used, terminal must connected terminal Terminals must connected also. supply will provide 150mA output current. These features make unit ideal with most common strain gage bridge circuits 120, 350, Ohms. supply short circuit protection protect against short term faults. output recovers automatically from short circuit conditions once short removed.
VOLTAGE LOAD CURRENT
Safe Operation Unsafe Area
curve (Figure describes region safe operating output current each voltage setting level. excitation desired Volt level with 150mA, this accomplished using resistor least Watts size series with bridge. right value resistor would drop Volts allowing Volts 150mA across bridge while minimizing internal heating Model 465. sense line would regulate supply required Volts. Normal operation single bridges Volts under 100mA (all 120, 350, bridges) accomplished within safe operating area.
Instrumentation Amplifier
built-in amplifier true differential input, noise, drift, instrumentation amplifier. high common mode rejection ratio (CMRR) provided with output offset that potentiometer adjustable. minimum gain setting amplifier maximum gain using builtin potentiometer 250. gain adjusted maximum 1,000 means external resistor connected across terminals size external resistor calculated using gain formula specifications. When doing this coarse gain potentiometer should turned fully clockwise. fine gain then used final gain adjustment. output offset adjustment range ±0.5V.
OUTPUT VOLYAGE (VOLTS)
SAFE OPERATING AREA
LOAD CURRENT (mA)
FIGURE Bridge Supply Safe Operation
2401 Stanwell Drive Concord, 94520-4841 (510) 687-4411 (510) 687-3333
http://www.calex.com
CALEX FaxFACTS:
amplifier withstand input voltages Volts without damage. output amplifier filtered down using double pole Butterworth response filter minimize effects high frequency electrical physical noise system. output amplifier Volts making compatible with modern data acquisition techniques systems.
1997
Model Bridgesensor
Specifications
(Typical 25°C unless noted) Amplifier Gain Range with external Gain Temperature Coefficient Gain Potentiometer Hysteresis Gain Equation
Note: desired voltage gain
Getting Started with Model
1,000 ppm/°C 0.2% span max. ±20/G V/°C 3,000 megohms megohms
Hook Procedure Connect your load cell INPUT, Connect your load cell INPUT,
Note:
Drift (RTI) Input Bias Current Input Impedance Differential Common Mode Output Noise (RTO) gain Common Mode Rejection Gain (DC) Rated Output load) Common Mode Voltage Output Impedance (DC) Dynamic Response pole Butterworth Filter Max. Input Voltage Bridge Supply Input
SENSE used your load cell application, connections step need followed. SENSE going used, jumper them described steps
Connect excitation your load cell jumper SENSE, Connect excitation your load cell jumper SENSE, Connect power supply input lines, pins Turn Procedure Verify that hook procedure complete. Verify correct voltage applied 465; i.e. 100, 115, 220, 230. Turn source supply 465. required EXCITATION supply voltage load cell adjusting ADJUST, III. Calibration Procedure Zero Adjustment Jumper input terminals, pins together. Connect volt meter across output, pins Adjust OUTPUT OFFSET, potentiometer zero. Full Scale Voltage Adjustment Remove jumper between input terminals apply known load your load cell, most cases would 100% full scale. Adjust COARSE GAIN, FINE GAIN, potentiometers desired FULL SCALE output. Calibration complete. However, user should recheck ZERO FULL SCALE output before continuing.
±10V ±7.5V 0.01 ohms 0.3s 0.1% ±15V
±10% (100, available) Output Voltage Volts Output Current (see output voltage current curve)
Load Line Regulation 0.05% VOUT 12V, Output Noise Drift Potentiometer Hysteresis Short Circuit Current Line Isolation Mechanical Operating Temperature Storage Temperature Weight Size ppm/°C max. 0.3% output max. 1,500 70°C -25°C +85°C (510 grams) 3.75"L 2.0"W 2.87"H 9.53 7.62 (cm)
Typical Bridge Application
Figure shows typical load cell application using standard bridge. Typical bridge output 3mV/Volt excitation. With power supply excitation voltage Volts output 30mV from bridge obtained. common mode voltage bridge (the instrumentation amplifier input signal level) Volts. This well within Volt common mode voltage range amplifier.
2401 Stanwell Drive Concord, 94520-4841 (510) 687-4411 (510) 687-3333
http://www.calex.com
CALEX FaxFACTS:
1997
Model Bridgesensor
FIGURE Typical load Cell Application
gain must between depending output bridge. built-in potentiometer gain would achieve output voltage Volts. higher level output external resistor must used. value that resistor calculated using gain formula. also arrived empirically using calibrated input signal equal maximum input signal expected resistance substitution adjust gain until desired full scale output voltage achieved. Assuming standard bridge used, current required from excitation supply (set Volts) would 28.6mA. leads were long enough have Ohms internal resistance there would drop over 0.25 Volts both plus common side bridge. eliminate this potential error (especially where current might vary during course measurement) sense lines connected measure regulate voltage right bridge rather than output supply thereby eliminating this potential source error. decision whether sense leads depends entirely lead length, resistance effect that error measurement.
Mechanical Specifications
Specifically designed rugged field Model completely encapsulated epoxy using vacuum potting system insure complete seal against corrosive environments. similarly protected against shock vibration will provide years reliable accurate operation.
Application Suggestions
Model designed eliminate many ordinary problems associated with bridge type measurements. Since whole system case common problem ground loops circulating currents caused poor wiring practices eliminated. recommended that lead lengths kept minimum. shielded twisted pairs input leads recommended most applications. minimize self heating errors minimum excitation power suggested sufficient heatsinking transducer wherever possible. optimum stability hour warm-up recommended. Avoid large temperature changes stray magnetic fields. output leads should kept short minimize capacitive loading output amplifier. Model Bridgesensor ready wire into your system, have power applied, start making measurements you.
Screw Terminal
FIGURE
Terminal Strip Assignments Function -SENSE B+SENSE USED Screw Terminal Function OUTPUT AMPLIFIER +INPUT -INPUT EXT. GAIN EXT. GAIN
2401 Stanwell Drive Concord, 94520-4841 (510) 687-4411 (510) 687-3333
http://www.calex.com
CALEX FaxFACTS:
1997

Model self contained, powered, signal conditioning module bridge type

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