Measurement SG 1/1 bridge (full bridge) 4/6-wire connection

To determine the measuring error:

The nominal/technical measuring range is specified in "mV/V"; the maximum permitted supply voltage is 5 V. The maximum nominal measuring range that can be used for the bridge voltage is therefore ±32 mV/V ⋅ 5 V = ±160 mV; the internal circuits are configured accordingly.

The internal measurement is ratiometric, i.e. the feed voltage and the bridge voltage are not measured absolutely, but as a ratio.

The integrated supply can be used as power supply. An external supply is permitted, as long as 5 V is not exceeded.

The following is the specification given for the 6 wire connection. External line resistances are compensated by the 6 wire connection and the full bridge is detected directly from the measuring channel.
In the 4 wire connection, the terminal generally has the same specification, but its view of the connected full bridge is clouded by the unclear and temperature-dependent lead resistances within cables and connectors. In this respect, the overall system "full bridge + leads + measurement channel" will practically not achieve specification values given below.

The lead resistances (cables, connectors, ...) have an effect especially on the gain error, also depending on the temperature. The gain error can be estimated by:

(R+uv (1 + ∆T ⋅ TcCu) + R-uv(1 + ∆T ⋅ TcCu) )/Rnom with TcCu~3930 ppm/K, Rnom

e.g. 350 Ω and R+uv or R-uv lead resistances respectively.

The use of the measurement channel in the 6 wire connection is recommended, especially when significant resistors such as a lightning arrester are put into the line.

Note: specifications apply for 5 V SG excitation and symmetric 350R SG.

Full bridge calculation:

Measurement SG 1/1 bridge (full bridge) 4/6-wire connection 1:

The strain relationship (µStrain, µε) is as follows:

Measurement SG 1/1 bridge (full bridge) 4/6-wire connection 2:

Common data

Measurement mode

StrainGauge/SG/1/1 bridge 4/6 wire

32 mV

4 mV

2 mV

Integrated power supply

1…5V adjustable, max. supply/Excitation 21 mA (internal electronic overload protection) therefore
120R DMS: up to 2.5 V; 350R DMS: up to 5.0 V

Measuring range, nominal

-32 … +32 mV/V

-4 … +4 mV/V

-2 … +2 mV/V

Measuring range, end value (FSV)

32 mV/V

4 mV/V

2 mV/V

Measuring range, technically usable

-34.359 … +34.359 mV/V

-4.295 … +4.295 mV/V

-2.147 … +2.147 mV/V

PDO resolution

24 bit (including sign)

PDO LSB (Extended Range)

0.128 ppm

PDO LSB (Legacy Range)

0.119… ppm

Specific data ELM3702-0101

Measurement mode

Measuring bridge/StrainGauge SG 1/1-Bridge 4/6-wire

32 mV/V

4 mV/V

2 mV/V

Basic accuracy: Measuring deviation at 23°C, with averaging, typ. 2)

without Offset

< ±0.003 %FSV
< ±30 ppmFSV
< ±0.96 µV/V

< ±0.0085 %FSV
< ±85 ppmFSV
< ±0.34 µV/V

< ±0.013 %FSV
< ±130 ppmFSV
< ±0.26 µV/V

incl. Offset

< ±0.0075 %FSV
< ±75 ppmFSV
< ±2.4 µV/V

< ±0.03 %FSV
< ±300 ppmFSV
< ±1.2 µV/V

< ±0.06 %FSV
< ±600 ppmFSV
< ±1.2 µV/V

Extended basic accuracy: Measuring deviation at 0…55°C, with averaging, typ. 2) 6)

without Offset

< ±0.011 %FSV
< ±110 ppmFSV
< ±3.52 µV/V

< ±0.0515 %FSV
< ±515 ppmFSV
< ±2.06 µV/V

< ±0.099 %FSV
< ±990 ppmFSV
< ±1.98 µV/V

incl. Offset

< ±0.013 %FSV
< ±130 ppmFSV
< ±4.16 µV/V

< ±0.059 %FSV
< ±590 ppmFSV
< ±2.36 µV/V

< ±0.115 %FSV
< ±1150 ppmFSV
< ±2.3 µV/V

Offset/Zero point deviation (at 23°C)

EOffset

< 70 ppmFSV

< 280 ppmFSV

< 580 ppmFSV

Gain/scale/amplification deviation (at 23°C)

EGain

< 24 ppm

< 70 ppm

< 110 ppm

Non-linearity over the whole measuring range

ELin

< 18 ppmFSV

< 45 ppmFSV

< 65 ppmFSV

Repeatability, over 24 h, with averaging

ERep

< 5 ppmFSV

< 15 ppmFSV

< 25 ppmFSV

Common-mode rejection ratio (without filter) 3)

DC

tbd. Measurement SG 1/1 bridge (full bridge) 4/6-wire connection 3: 

tbd. Measurement SG 1/1 bridge (full bridge) 4/6-wire connection 4: 

tbd. Measurement SG 1/1 bridge (full bridge) 4/6-wire connection 5: 

50 Hz

tbd. Measurement SG 1/1 bridge (full bridge) 4/6-wire connection 6: 

tbd. Measurement SG 1/1 bridge (full bridge) 4/6-wire connection 7: 

tbd. Measurement SG 1/1 bridge (full bridge) 4/6-wire connection 8: 

1 kHz

tbd. Measurement SG 1/1 bridge (full bridge) 4/6-wire connection 9: 

tbd. Measurement SG 1/1 bridge (full bridge) 4/6-wire connection 10: 

tbd. Measurement SG 1/1 bridge (full bridge) 4/6-wire connection 11:

Common-mode rejection ratio (with 50 Hz FIR filter) 3)

DC

tbd. Measurement SG 1/1 bridge (full bridge) 4/6-wire connection 12: 

tbd. Measurement SG 1/1 bridge (full bridge) 4/6-wire connection 13: 

tbd. Measurement SG 1/1 bridge (full bridge) 4/6-wire connection 14: 

50 Hz

tbd. Measurement SG 1/1 bridge (full bridge) 4/6-wire connection 15: 

tbd. Measurement SG 1/1 bridge (full bridge) 4/6-wire connection 16: 

tbd. Measurement SG 1/1 bridge (full bridge) 4/6-wire connection 17: 

1 kHz

tbd. Measurement SG 1/1 bridge (full bridge) 4/6-wire connection 18: 

tbd. Measurement SG 1/1 bridge (full bridge) 4/6-wire connection 19: 

tbd. Measurement SG 1/1 bridge (full bridge) 4/6-wire connection 20: 

Temperature coefficient, typ.

TcGain

< 2.5 ppm/K

< 5 ppm/K

< 6 ppm/K

TcOffset

< 2 ppmFSV/K
< 0.06 µV/V/K 

< 15 ppmFSV/K
< 0.06 µV/V/K 

< 30 ppmFSV/K
< 0.06 µV/V/K 

Largest short-term deviation during a specified electrical interference test

tbd.

tbd.

tbd.

Input impedance ±Input 1

Differential

tbd.

tbd.

tbd.

CommonMode

tbd.

tbd.

tbd.

Input impedance ±Input 2

4-wire

No usage of this input in this mode

Differential

tbd.

tbd.

tbd.

CommonMode

tbd.

tbd.

tbd.

2) In real bridge measurement, an offset adjustment is usually carried out after installation. The given offset specification of the terminal is therefore practically irrelevant. Therefore, specification values with and without offset are given here. In practice, the offset component can be eliminated by the functions ELM Features and also ELM Features of the terminal or in the controller by a higher-level tare function. The offset deviation of a bridge measurement over time can change, therefore Beckhoff recommends a regular offset adjustment or careful observation of the change.

3) Values related to a common mode interference between SGND and internal ground.

6) Calculated value according to equation in chapter "General information on measuring accuracy/measurement uncertainty" for quick estimation of usability over the specified ambient temperature range in operation (Tambient). In real use, for example at a relatively constant ambient temperature Tambient, a lower (better) achievable uncertainty is attained. A specific calculation according to chapter "General information on measuring accuracy/measurement uncertainty" is recommended, especially if the instrument allows a wider ambient temperature range in operation than 0...55 °C.

Preliminary specifications ELM3702-0101 (10 ksps)

Measurement mode

Measuring bridge/StrainGauge SG 1/1-Bridge 4/6-wire

32 mV/V

4 mV/V

2 mV/V

Noise (without filtering, at 23°C)

ENoise, PtP

90 ppmFSV
703 digits
2.88 µV/V

< 600 ppmFSV
< 4688 digits
< 2.40 µV/V

< 1200 ppmFSV
< 9375 digits
< 2.40 µV/V

ENoise, RMS

15 ppmFSV
< 117 digits
< 0.48 µV/V

< 100 ppmFSV
< 781 digits
< 0.40 µV/V

< 200 ppmFSV
< 1563 digits
< 0.40 µV/V

Max. SNR

96.5 dB

> 80.0 dB

> 74.0 dB

Noisedensity@1kHz

6.79 Measurement SG 1/1 bridge (full bridge) 4/6-wire connection 21:

< 5.66 Measurement SG 1/1 bridge (full bridge) 4/6-wire connection 22:

< 5.66 Measurement SG 1/1 bridge (full bridge) 4/6-wire connection 23:

Noise (with 50 Hz FIR filter, at 23°C)

ENoise, PtP

12 ppmFSV
94 digits
0.38 µV/V

< 60 ppmFSV
< 469 digits
< 0.24 µV/V

< 120 ppmFSV
< 938 digits
< 0.24 µV/V

ENoise, RMS

2.0 ppmFSV
16 digits
0.06 µV/V

< 10.0 ppmFSV
< 78 digits
< 0.04 µV/V

< 20.0 ppmFSV
< 156 digits
< 0.04 µV/V

Max. SNR

114.0 dB

100.0 dB

> 94.0 dB