Male/Male Thread Connection, Inline Tension Link Load Cell
20,000 lbf, ±0.1%, Linearity, 2 mV/V Output, Cable
Volume discounts available
Volume Discount Schedule
Quantity | Price each |
---|---|
1-4 | $1,126.00 |
5-9 | $1,069.70 |
10-24 | $1,047.18 |
25-49 | $1,002.14 |
50-99 | $979.62 |
100+ | $957.10 |
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- Male to Male Thread Connection
- 5 Point NIST Traceable Calibration with
59 kOhm Shunt Cal Data - All Stainless Steel Construction
- Accuracy 0.15%
- Heavy Duty Construction for High Capacity Loads
LC702-20K Model Options
View all modelsEdit these specs to order a different model. Not all combinations are valid. Options compatible with previous selections will be in bold.
*Highlighted options are not compatible. Please select a different combination.
Weight Capacity
OD
Height
Connection Type
Cable Length
Measurement Units
Force direction
Linearity
Electrical Output (nominal)
- Hysteresis ±0.10% FSO
- Input Resistance 350 Ω
- Accuracy Value 0.1
- Linearity ±0.10% FSO
- Load Cell Material Stainless Steel
- Maximum Ambient Temperature 121 {C} (250 {F})
- Maximum Compensation Temperature 71 {C} (160 {F})
- Measurement Type Load
- Minimum Compensation Temperature 16 {C} (60 {F})
- Repeatability ±0.05% FSO
- Safe Overload 150% of Capacity
- Ultimate Overload 300% of Capacity
- Temperature Effects Zero: ±0.009% FSO/°C (±0.005% FSO/°F)
- Zero Balance ±1.0% FSO
- Style Tension Link
OMEGA’s LC702 Series Tension Links have a 6 ft (2 m) cable, and the LC712 Series have an integral connector. Both series are all stainless steel high capacity in-line tension load cells, for applications including cables on cranes, support rods in architectural designs, engine test beds, and industrial weighing applications.
SPECIFICATIONS
Output: 2 mV/V ±0.25 % FSO
Excitation: 10 Vdc (15V max)
Linearity: ±0.10% FSO
Hysteresis: ±0.10% FSO
Repeatability: ±0.05% FSO
Zero Balance: ±1.0% FSO
Operating Temp Range: -34 to 121°C (-30 to 250°F)
Compensated Temp Range: 16 to 71°C (60 to 160°F)
Thermal Effects:
Zero: ±0.009% FSO/°C (±0.005% FSO/°F)
Span: ±0.009% FSO/°C (±0.005% FSO/°F)
Safe Overload: 150% of capacity
Ultimate Overload: 300% of capacity
Bridge Resistance: 350 ?
Construction: Stainless steel
Electrical:
LC702: 1.8 m (6') 4-conductor cable
LC712: DT02H-10-6P (or equiv.)
Protection Class: IP67
LC712 Mating Connector: PT06F10-6S, sold separately
SPECIFICATIONS
Output: 2 mV/V ±0.25 % FSO
Excitation: 10 Vdc (15V max)
Linearity: ±0.10% FSO
Hysteresis: ±0.10% FSO
Repeatability: ±0.05% FSO
Zero Balance: ±1.0% FSO
Operating Temp Range: -34 to 121°C (-30 to 250°F)
Compensated Temp Range: 16 to 71°C (60 to 160°F)
Thermal Effects:
Zero: ±0.009% FSO/°C (±0.005% FSO/°F)
Span: ±0.009% FSO/°C (±0.005% FSO/°F)
Safe Overload: 150% of capacity
Ultimate Overload: 300% of capacity
Bridge Resistance: 350 ?
Construction: Stainless steel
Electrical:
LC702: 1.8 m (6') 4-conductor cable
LC712: DT02H-10-6P (or equiv.)
Protection Class: IP67
LC712 Mating Connector: PT06F10-6S, sold separately



What would be a typical signal to noise ratio using load cells LC101 and LC 702?
Thank you for your question, this is very dependent on the particular application but if only talking about load cells the LC101 is little better than LC702 because LC101 output sensitivity is 3, and the LC702’s output sensitivity is 2mV/V.
3 to same noise ratio is bigger than 2, but not much different. If want to reduce the noise ratio, the best way is to use load with built-in amplifier which will increases output over noise, additionally we would recommend the use of short cables.
Date published: 2020-04-02
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