Top Hat Style, Miniature Compression Load Cell
250 lbf, ±0.75%, Linearity, 1.5 mV/V Output, Cable
Volume discounts available
Volume Discount Schedule
Quantity | Price each |
---|---|
1-4 | $520.97 |
5-9 | $494.92 |
10-24 | $484.50 |
25-49 | $463.66 |
50-99 | $453.24 |
100+ | $442.82 |
Added to Your Shopping Cart
Configuration complete.
Please add to cart to keep it or exit the configuration
Please add to cart to keep it or exit the configuration
Failed to Save Configurations, Click on Configure Button Start Again
- All Stainless Steel Construction
- Built-in Load Button for Easy Installation
- Rugged, Heavy Duty Design
- 5-Point Calibration with 90 kOhm Shunt Cal Data
LC307-250 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
Measurement Units
OD
Height
Force direction
Linearity
Electrical Output (nominal)
Connection Type
Cable Length
- Safe Overload 150% of capacity
- Ultimate Overload 300% of capacity
- Zero Balance ±2% FSO
- Accuracy 0.75% FS BFSL (includes linearity, hysteresis and repeatability)
- Compensated Temp Range 16 to 71°C (60 to 160°F)
- Electrical 1.5 m (5') 4-conductor PTFE cable with compensation board; 15 cm from cell
- Excitation 5 Vdc
- Operating Temp Range -54 to 121°C (-65 to 250°F)
- Output 1.5 mV/V nominal
- Thermal Effects Span: ±0.018% rdg/°C Zero: ±0.018% FSO/°C
- Bridge Resistance 350 Ω minimum
- Full Scale Deflection 0.025 to 0.076 mm (0.001 to 0.003")
Small in size but not in performance, the Series LC307 "Top Hat" load cell is designed for applications with minimum space and high capacity loads up to 100,000 lb. Rugged all stainless steel construction and high performance strain gages assure superior linearity and stability. Temperature compensation is achieved through a miniature circuit board in the load cell’s cable. This unit is designed to be mounted on a smooth, flat surface.
The LC307 is also available in metric configurations, with 0-1 to 0-500 kN ranges. Please see the LCM307 for complete details, or contact our Pressure department for more information..
SPECIFICATIONS
Excitation: 5 Vdc
Output: 1.75 mV/V nominal
Accuracy: 0.75% FS BFSL (includes linearity, hysteresis and repeatability)
Zero Balance: ±2% FSO
Operating Temp Range: -54 to 121°C (-65 to 250°F)
Compensated Temp Range: 16 to 71°C (60 to 160°F)
Thermal Effects:
Span: ±0.018% rdg/°C
Zero: ±0.018% FSO/°C
Safe Overload: 150% of capacity
Ultimate Overload: 300% of capacity
Bridge Resistance: 350Ω minimum
Full Scale Deflection: 0.025 to 0.076 mm (0.001 to 0.003")
The LC307 is also available in metric configurations, with 0-1 to 0-500 kN ranges. Please see the LCM307 for complete details, or contact our Pressure department for more information..
SPECIFICATIONS
Excitation: 5 Vdc
Output: 1.75 mV/V nominal
Accuracy: 0.75% FS BFSL (includes linearity, hysteresis and repeatability)
Zero Balance: ±2% FSO
Operating Temp Range: -54 to 121°C (-65 to 250°F)
Compensated Temp Range: 16 to 71°C (60 to 160°F)
Thermal Effects:
Span: ±0.018% rdg/°C
Zero: ±0.018% FSO/°C
Safe Overload: 150% of capacity
Ultimate Overload: 300% of capacity
Bridge Resistance: 350Ω minimum
Full Scale Deflection: 0.025 to 0.076 mm (0.001 to 0.003")



Regarding "top-hat" load cell item LC307-500 lbf.; Please advise if you can provide the following information - A) What is the Maximum Power (Watt) Rating for this device B) What is the Thermal Resistance of the Device (degrees Celsius per Watt)
Power ratings for this .cell are a follows. Nominal Excitation Voltage is 5 VDC. Maximum current from power supply 15 mA. There is no for Thermal Resistance on this sensor.
Date published: 2021-05-19
Does the LC307 load cell transducer meet the requirements of a non-incendive apparatus and thus is it suitable for application use in a Division 2 hazardous location ?
The LC307 is not rated for hazardous location usage, please see the LCHD-IS load cells for use in a Division 2 hazardous location.
Date published: 2021-05-27
Which surface of the LC-307 load cell would be best held against a stationary surface and which surface is best to apply the load against ?
The SPHERICAL RADIUS shown on the dimensional drawing on the Datasheet is the loading surface that you would apply the load.
Date published: 2021-06-14
This is a follow-up question for Application Engineer JK, regarding Thermal Resistance question. When you said "no" in your original answer, do you mean negligible Thermal Resistance? or did you mean no information is available?
There is no data available forThermal Resistance for our load cells
Date published: 2021-05-20
What is the minimum load (in lbf or other equivalent unit) that this sensor starts reading? Does it vary depending on the specific dash number? What would be this number for LC307-3K?
The sensor does actually start reading at very low loads but you should never rely on the accuracy of the reading in the lower 10% of it's load range. In the case of a 0 to 3000 lbf range load cell this be readings below the 300 lbf range
Date published: 2021-06-02