Aluminum 960510

Description : Model 960510 is a Strain Gage based low profile bending beam Load Cell and is ideal for Bench, Counting, Floor, Postal and Retail Scales. It is designed for low eccentric load sensitivity. It is Constructed from Anodized Alluminum Alloy. capacity are 1.5, 2, 2.5, 3, 5,10, 15, 20, 30, 40, 50, 75, 100 & 120 - kgf

Aluminum 960610

Description : Model 960610 is a Strain Gage based low profile bending beam Miniature Load Cell and is ideal for Table Top & Jewelery Scales. It is designed for low eccentric load sensitivity. It is provided with mechanical over load & under load protection mechanism.

Aluminum 960610-L

Description : Model 960610-L is a Straing Gage based low profile bending beam Miniature Load Cell and it is ideal for Table top & Jewelery Scales. It is designed for low eccentric load sensitivity. capacity are 100, 200, 400, 500, 700 - Gmf 1,1.5, 2 - Kgf

Aluminum 960710

Description : This is an economical Load Cell meant for off-centre loading applications. It is used in bench, counting and postal Scales. It is strain gauge based Cell constructed from Aluminum Alloy for better sensitivity. capacity are 3, 6, 10, 15, 20, 30, 40, 60 - Kgf

Aluminum CZL9650

Description : It uses 4-core shielded cable(?5x1500mm). The length of the cable can be adjusted according to clients' request, but we suggest to use this standard length to ensure the output precision.

Aluminum CZL9642

Description : It uses 4-core shielded cable(?5x1500mm). The length of the cable can be adjusted according to clients' request, but we suggest to use this standard length to ensure the output precision.

Aluminum CZL9619

Description : It uses 4-core shielded cable (?4�420mm). The length of the cable can be adjusted according to clients' request, but we suggest to use this standard length to ensure the output precision.

Aluminum CZ9601

Description : It uses 4-core shielded cable (?4�420mm). The length of the cable can be adjusted according to clients' request, but we suggest to use this standard length to ensure the output precision.