Load Cell Verification and Calibration

Hardware Step-by-Step

Load Cell Installation

Low Load Argon

Required Tools and Components

Components:

Low load argon load cell

Suspension holder

Low load suspension

Ball holder

Screws and Hardware:

Allen key: 5/64”, 7/64”, 3/32”

Mounting the Argon Sensor on MFT-2000

Install the load cell on the fast-exchange attachment by fastening the 4 captive screws using a 5/32" Allen wrench.

The narrow side of the fast exchange plate’s should point to the left of the front load cell as this side will fit into the back of the sliding support.

The front of the load cell is the face showing the Rtec logo and the unit calibration sticker.

(Optional) With Extension block:

(Optional) You can also use an extension block to reduce the distance between the load cell and the lower setup.

Mount the block extension on the exchange plate with 4 4 x 10-32 x 1.250” long screws using 5/32 Allen wrench.

Then the adaptor plate mounted on the extension block with 4 x 10-32 x .625” long screws using 5/32 Allen wrench.

Install the load cell on the fast-exchange attachment by fastening the 4 captive screws using a 5/32" Allen wrench.

The narrow side of the fast exchange plate’s should point to the left of the front load cell as this side will fit into the back of the sliding support.

The front of the load cell is the face showing the Rtec logo and the unit calibration sticker.

Ball holder and suspension installation

Secure the suspension holder with the 4 screws using 5/64” Allen Key.

The labeled force represents the suspension capability, not the nominal operating force.

The suspension must operate within this specified range.
Exceeding this limit will lead to ineffective suspension operation.

Fix the suspension then secure it by tightening the side screw using 7/64” Allen key.

⚠️

Be careful not to overload the load cell while inserting the suspension.

You can install the suspension into the holder first before installing the holder on the load cell.

Or, as shown, you may insert a thin Allen key into the clamping gap during insertion to allow the part to slide in effortlessly.

Install or replace the ball from the ball holder, then hand-tighten the nut or using a wrench (optional).

Secure the ball holder once slide into the suspension by tightening the side screw using 3/32” Allen key.

⚠️

The ball holder must not touch the suspension base to ensure proper suspension operation.

It is possible to use a ball holder extension to reduce the Z distance to the sample in certain testing configurations.

Please contact Rtec Service for this specific matter.

Installing the Argon (MFT-2000)

Slide in the load cell into the Z stage rack.

Make sure the 4 screws above the rack are removed.
Slide the load cell with its front facing you and the connector on the right.

Fasten the 4 securing screws by hands.

Connect the ribbon cable. The connector only fit one way.

Medium Load Argon

Introduction

This manual applies to the following tester

MFT-5000

MFT-2000

MFT-2000 A

SMT-5000

This type of Load Cell is composed of a singular part, which makes it easier to use. Inside this Load Cell are two piezo sensors, one measuring Fz and the other measuring Fx.

In this example of standard assembly, you can see on the front side of the 200N load cell a sticker which is the calibration unit of each axis force, fz and fx, necessary to read correct value based on those reference value.

The 100N suspension assembled on it is used to limit the vibration induced by the sample during testing. There are several variations of suspensions depending on the maximum load it can be effective on.

Exemple of holder into their suspensions:

Required Tools and Components

Components:

Argon Load Cell

Argon Adapter Plate

Argon Quick Exchange

Slip Sleeve

Ball Holder Plate MM002059-00

Ball Holder

Optional Components:
o Extension Block
o Suspension Plate

Screws and Hardware:

(4x) 10-32 Screws - BM310612

(4x) 10-32 Screws - BM310320-5
SHCS 10-32 X .375" LG PLAIN 18-8 SST

(4x) ¼ inch button head screws

(4x) 8-32 Screws

Allen wrenches: 5/32", 9/64”

Mounting the Argon Sensor on MFT-5000

In most cases, the Argon adapter plate will already be installed. However, if
installation is required, follow these steps:

Mount the adaptor plate plate directly to the Quick Exchange base using the provided 4 x 10-32 x 1.250” long screws using 5/32” Allen wrench.

(Optional) Using the extension Block

(Optional) You can also use an extension block to reduce the distance between the load cell and the lower setup.

Without extension block (left) and with extension block (right)

Mount the block extension on the exchange plate with 4 4 x 10-32 x 1.250” long screws using 5/32 Allen wrench.

Then the adaptor plate mounted on the extension block with 4 x 10-32 x .625” long screws using 5/32 Allen wrench.

Install the load cell on the fast-exchange attachment by fastening the 4 captive screws using a 5/32" Allen wrench.

Align the sensor so that the ribbon cable port is on the right-hand side
when viewed from the front.

This ensures correct orientation in relation to the rear alignment features of the Quick Exchange.

Mounting the Argon Sensor on MFT-2000

Install the load cell on the fast-exchange attachment by fastening the 4 captive screws using a 5/32" Allen wrench.

The narrow side of the fast exchange plate’s should point to the left of the front load cell as this side will fit into the back of the sliding support.

The front of the load cell is the face showing the Rtec logo and the unit calibration sticker.

(Optional) With Extension block:

(Optional) You can also use an extension block to reduce the distance between the load cell and the lower setup.

Mount the block extension on the exchange plate with 4 4 x 10-32 x 1.250” long screws using 5/32 Allen wrench.

Then the adaptor plate mounted on the extension block with 4 x 10-32 x .625” long screws using 5/32 Allen wrench.

Install the load cell on the fast-exchange attachment by fastening the 4 captive screws using a 5/32" Allen wrench.

The narrow side of the fast exchange plate’s should point to the left of the front load cell as this side will fit into the back of the sliding support.

The front of the load cell is the face showing the Rtec logo and the unit calibration sticker.

Mounting the suspension

Choosing the right suspension purchased

A suspension is used to limit the vibration induced by the sample during testing.

There are several variations of suspensions depending on the maximum load it can be effective on.

It is recommended to select a suspension system with the closest higher load rating to the expected load.

Example

For a test at 30N, you would need to use the 50N suspension.
By doing so, you will mitigate the vibrations the most.

If you work at 48N it would be better to use a 100N suspension as the 50N suspension would not work for vibrations above 2N.

Medium to High Suspension List

Low Range Suspensions

Range and Components	SPN Number
0.5N suspension L shape	SPN14015-508
1N suspension L shape	SPN14015-509
5N suspension L shape	SPN14015-510
10N suspension L shape	SPN14015-511
Low load sensor clamp Aluminum	SPN14039-512
Low load sensor clamp Steel	SPN14039-513

The labeled force represents the suspension capability, not the nominal operating force.
The suspension must be used within this specified range and exceeding this limit will lead to ineffective suspension operation.

Mount the suspension between the Argon Sensor and the Ball Holder
Plate by tightening the 2 captive screws using 9/64” Allen key.

The label of the suspension should face the same direction as the load cell sticker.

Pin/Ball holder preparation

The ball holder along with the provided collet can also accommodate circular pins.

Loosen the nut to free the ball.

Insert the adjusting pin into the holder, then the ball.
Provided for standard test: Ball, .250" (1/4") (6.350mm) Dia
E52100 100Cr6 grade 25 Alloy Steel.

Hold the holder vertically, so the ball is resting on the pin.
Using a 1/8" Allen key, fasten the screw inside the holder to slightly push the ball.

Once the ball is retracted enough, fasten the nut to secure it.

ℹ️

For preliminary testing: The ball may be reused by rotating it to expose a unworn contact surface.
For final measurements: It is recommended to employ a new ball for each test to ensure accuracy and reproducibility.

Extension holder

ℹ️

Use the extension only in particular cases where the ball holder cannot reach the sample.

Increasing the ball holder length can negatively affect test results, especially in reciprocating tests. Whenever possible, use the load cell extension block instead.

(to reduce the distance towards the sample)

Universal Ball holder Overivew

1. Test Ball or Pin

Rtec balls catalog

E52100 Alloy Steel / HRC60

304 SSt / HRC25

440C SSt / HRC58

WC Tungsten Carbide / HRC75

SiN Silicon Nitride

Nonporous Alumina Ceramic balls

PTFE

Available Ball size :

1.6mm

3.9mm

6.3mm

9.5mm

12.7mm

Upper Sample Holder for Chamber

1200° Chamber

Upper Sample Holder for 1200℃ Chamber	Part no.
Ball Holder 9.5 mm ( 3/8")	SPN03U008H
Ball and Pin Holder 6.35 mm ( 1/4")	SPN03U008-1H
Ball Holder 3.175 mm ( 1/8")	SPN03U008-2H
Ball Holder 1.6 mm ( 1/16")	SPN03U008-3H

1000° Chamber

Upper Sample Holder for 1000℃ Chamber	Part no.
0.5 inch ball	SPN030060-55
0.375 inch ball	SPN030060-54
0.25 inch ball	SPN030060-53
3 mm ball	SPN030060-56
6mm diameter cylinder	SPN030041-462
6.3mm diameter cylinder	SPN13108
9.5mm diameter cylinder	SPN030041-463
12.7mm diameter cylinder	SPN030041-464
15mm diameter cylinder	SPN030041-465

2 . Nut

3. ER11 Collet

General metric range avalaible: from 1 mm to 7 mm (0.5 mm increments)

Each collet has a clamping range of 0.5 mm
ex: an ER11-3 mm collet can also clamp pins/balls with a 2.5-3.5 mm diameter.

4. Adjusting pin

This pin enables ball position adjustment within the collet.

5. Ball Holder

Holder Specification MSC 81197253

Collet Series	ER11
Shank Type	Straight
Through Coolant	No
Shank Diameter (Inch)	5/8

Minimum Collet Capacity (Decimal Inch)	0.0190
Maximum Collet Capacity (Decimal Inch)	0.2760
Overall Length (Inch)	3-1/2
Overall Length (Decimal Inch)	3.5
Actuator Type	Wrench
Shank Length (Decimal Inch)	3.0300
Collet Nut Diameter (Decimal Inch)	0.6200

6. Extension

ℹ️

For additional information or to place an order, please contact Rtec Support (contact information provided at the end of this manual).

Self-Adjusting Block holder preparation

ℹ️

The self-leveling block holder will ensure proper contact during the test.

Firstly ,loosen the 2 tightening screws using /16” Allen key.

Slide in the block sample into the block support

ASTM Rtec Block Catalog

HRC 58-62 Roughness 4-8 Uinch → D3704, G77, G176
SPN13136-145

HRC 27-33 Roughness 20-30 Uinch → D2714, D3704

HRC 58-62 Roughness 20-30 Uinch → D2509
SPN13136-146

Level the block sufficiently into the holder.

Tighten the securing screws on each side.

Block sample Quotation

Rtec Test Block Size: 0.620 x 0.250 x 0.4

L x l x h in inches

Reference : MM000128-XX

Installing the Ball Holder

Use four 1/4” button head screws to secure the assembly to the load cell
and tighten using a 5/32” Allen wrench.
Then Insert the slip sleeve into the sensor mount.

Place the ball holder into the slip sleeve.

Mount the Ball Holder onto the suspension in the same manner as onto
the load cell using a 9/64” Allen wrench.

⚠️

It is recommended to install the ball holder as far as possible into the suspension while making sure that it does not hit the load cell when the suspension is fully compressed.

Installing the Argon (MFT-5000)

Lower the Z-Axis all the way down using the jogbox.

Before installing the load cell

Lower the Z-Axis all the way down using the jogbox, to have access to the attachement.

Ensure the Y-stage is moved sufficiently backward to avoid obstruction.
Although unlikely to cause damage, improper placement may interfere with installation.

Slide the sensor assembly with the Quick Exchange into the MFT-5000
Quick Exchange Dock

Ensure first that the locking wings are forward.

The front of the load cell (Rtec logo and sticker) is facing you.

Lift the Argon Assembly up while tightening the Quick Exchange locks
outward

Always hold the sensor by its sides to avoid applying force on the sensors.

Make sure the assembly is firmly wedged up with no vertical play.

Connect the ribbon cable to the Argon Load Sensor.

The connector only fit one way.

Installing the Argon (MFT-2000)

Slide in the load cell into the Z stage rack.

Make sure the 4 screws above the rack are removed.
Slide the load cell with its front facing you and the connector on the right.

Fasten the 4 securing screws by hands.

Connect the ribbon cable. The connector only fit one way.

1D+1D

Required Tools and Components

Components:

Fz-1D Load Cell

Fx-1D Arm: horizontal arm, vertical arm, pivot base, springs

1D+1D Arm kit : suspensions, insulator sleeve, slit sleeve, top cap, adaptor, insulator cap, mounting screw

Universal holder

Screws and Hardware:

(4x) 1.125 in Screws and Washers

Allen wrenches: 5/64", 3/16”

Introduction

This type of Load Cell is composed of 2 different parts, each one responsible for one axis of force.

One arm with a piezo sensor will measure the friction force along Fx, while Fz will be applied and recorded by another component.

Arm montage (if dismounted)

The Fx sensor should come pre-built. However, if you need to build it, follow the following steps:

Firstly, attach the horizontal arm to the vertical arm.
Screw the shoulder screw from the bottom hole with FHSHS 6-32 x .750” BM310271-08

There are 2 types of horizontal arms. The longer version is mostly used with environmental chambers. You need to select the arm depending on how long you want the ball holder to be.

Fix the capacitive sensor to the vertical arm with 2 x 8-32 x .875” BM310290-11.

The sensor face with the threaded insert.

Attach the friction arm to the pivot base with 8-32 x .375” BM310280-05 with a 9/64 » allen key.

⚠️

Please refer to the 3 threads of the base which must point downward to ensure proper angular movement of the pivot base.

Mounting the Fz Load Cell

Quick-exchange attachement

Sliding plate

Block extension

Fz load cell

Ensure that the quick-exchange plate is properly mounted on top of the load cell:

Mount the fz load cell on the fast exchange plate and tighten the 4 captive screws.
(4 x 10-32 x 1.250” long using 5/32 Allen wrench).

Incorrect

The fast exchange plate’s notch should be pointing on the opposite side of the front load cell as this notch will fit into the back of the sliding support.

The front of the load cell is the face showing the Rtec logo and the unit calibration sticker.

(Optional) With Extension blocks:

You can also use an extension block to reduce the distance between the load cell and the lower setup.

Mount the block extension on the exchange plate with 4 4 x 10-32 x 1.250” long screws using 5/32 Allen wrench.

Install the load cell mounted on the extension block with the 4 captives screws.
(4 x 10-32 x 1.250” long using 5/32 Allen wrench).

The fast exchange plate’s notch should be pointing on the opposite side of the front load cell as this notch will fit into the back of the sliding support.

The component at the top of the picture is the fast exchange adapter.

The front of the load cell is the face showing the Rtec logo and the unit calibration sticker.

Incorrect

Install the Fz load Cell

Lower the Z-Axis all the way down using the jogbox Z-axis control.

Slide the FZ-1D arm into the quick-exchange mount.

Secure the arm by locking it in place.

⚠️

Always power off the instrument before connecting or installing any load cell
or accessory.

Mount the Fx-1D Arm

Remove the right panel of the MFT to access to the fixation hole and sticker

Position yourself at the right frame of the MFT and place the back of the arm (the pivot base)against the frame, making sure the base of the arm is pressed against it.

Refer to the alignment guide on the side of the instrument to determine
the correct mounting holes.

The level of the friction arm depends on the configuration.

ex: For the block-on-ring configuration without heating chamber, use
positions 5 and 7.

Attach the friction arm to the instrument using the 1.125-inch screws and washers to secure the arm. (1/4-20 x 1.000” BM310340-09). Hand-tighten initially; fully tighten with the 3/16” Allen Key after final adjustments.

Mount the Spring Assembly

Use a 5/64" Allen wrench to mount the springs to the front and back of the Fx-1D arm.

Ensure proper tension and secure the spring assembly.

Attach the Load Cell Cables

Connect the Sensor Cable

Connect the Fx Arm Cable to the Fz Load Cell

Raise the Fz-1D Load Cel

Pin/Ball holder preparation

The ball holder along with the provided collet can also accommodate circular pins.

Loosen the nut to free the ball.

Insert the adjusting pin into the holder, then the ball.
Provided for standard test: Ball, .250" (1/4") (6.350mm) Dia
E52100 100Cr6 grade 25 Alloy Steel.

Hold the holder vertically, so the ball is resting on the pin.
Using a 1/8" Allen key, fasten the screw inside the holder to slightly push the ball.

Once the ball is retracted enough, fasten the nut to secure it.

ℹ️

Extension holder

ℹ️

Use the extension only in particular cases where the ball holder cannot reach the sample.

Increasing the ball holder length can negatively affect test results, especially in reciprocating tests. Whenever possible, use the load cell extension block instead.

(to reduce the distance towards the sample)

Universal Ball holder Overivew

1. Test Ball or Pin

Rtec balls catalog

E52100 Alloy Steel / HRC60

304 SSt / HRC25

440C SSt / HRC58

WC Tungsten Carbide / HRC75

SiN Silicon Nitride

Nonporous Alumina Ceramic balls

PTFE

Available Ball size :

1.6mm

3.9mm

6.3mm

9.5mm

12.7mm

Upper Sample Holder for Chamber

1200° Chamber

Upper Sample Holder for 1200℃ Chamber	Part no.
Ball Holder 9.5 mm ( 3/8")	SPN03U008H
Ball and Pin Holder 6.35 mm ( 1/4")	SPN03U008-1H
Ball Holder 3.175 mm ( 1/8")	SPN03U008-2H
Ball Holder 1.6 mm ( 1/16")	SPN03U008-3H

1000° Chamber

Upper Sample Holder for 1000℃ Chamber	Part no.
0.5 inch ball	SPN030060-55
0.375 inch ball	SPN030060-54
0.25 inch ball	SPN030060-53
3 mm ball	SPN030060-56
6mm diameter cylinder	SPN030041-462
6.3mm diameter cylinder	SPN13108
9.5mm diameter cylinder	SPN030041-463
12.7mm diameter cylinder	SPN030041-464
15mm diameter cylinder	SPN030041-465

2 . Nut

3. ER11 Collet

General metric range avalaible: from 1 mm to 7 mm (0.5 mm increments)

Each collet has a clamping range of 0.5 mm
ex: an ER11-3 mm collet can also clamp pins/balls with a 2.5-3.5 mm diameter.

4. Adjusting pin

This pin enables ball position adjustment within the collet.

5. Ball Holder

Holder Specification MSC 81197253

Collet Series	ER11
Shank Type	Straight
Through Coolant	No
Shank Diameter (Inch)	5/8

Minimum Collet Capacity (Decimal Inch)	0.0190
Maximum Collet Capacity (Decimal Inch)	0.2760
Overall Length (Inch)	3-1/2
Overall Length (Decimal Inch)	3.5
Actuator Type	Wrench
Shank Length (Decimal Inch)	3.0300
Collet Nut Diameter (Decimal Inch)	0.6200

6. Extension

ℹ️

For additional information or to place an order, please contact Rtec Support (contact information provided at the end of this manual).

Ball holder Spring Setup

Sleeve, insulator cap and the adaptor are placed on the top of the holder.

in order to be used with the suspensions.

For more information

A suspension is used to limit the vibration induced by the sample during testing. There are several variations of suspensions depending on the maximum load it can be effective on. .

It is recommended to select a suspension system with the closest higher load rating to the expected load.
For example, if you realize a test at 150N, you would need to use the 200N suspension. By doing so, you will mitigate the vibrations the most.

Block holder Spring Setup

Sleeve, insulator cap and the adaptor are placed on the top of the holder.

in order to be used with the suspensions.

Slide in the block holder adapter sleeve.

Add the first cap to the top of the ball holder.

Place the spring onto the cap.

Add the top cap on top of the spring.

The pictures below show the actual montage step directly on the arm.

Follow the next step to continue

Self-Adjusting Block holder preparation

ℹ️

The self-leveling block holder will ensure proper contact during the test.

Firstly ,loosen the 2 tightening screws using /16” Allen key.

Slide in the block sample into the block support

ASTM Rtec Block Catalog

HRC 58-62 Roughness 4-8 Uinch → D3704, G77, G176
SPN13136-145

HRC 27-33 Roughness 20-30 Uinch → D2714, D3704

HRC 58-62 Roughness 20-30 Uinch → D2509
SPN13136-146

Level the block sufficiently into the holder.

Tighten the securing screws on each side.

Block sample Quotation

Rtec Test Block Size: 0.620 x 0.250 x 0.4

L x l x h in inches

Reference : MM000128-XX

Installing the montage into the arm

Unscrew the thumb screw/knob present on the front of the arm
You can now open the securing block and insert the holder.

Insert the holer onto the arm and align the slot on the sleeve with the alignment pin on the arm.

The flange of the insulator sleeve must be positioned towards the top of the block holder
For the block holder: Make sure that the notch matches the extrusion of the block holder

Slide the sleeve into position and loosely secure it.

Level the arm

Use the built-in level on the 1D arm to ensure the arm is mounted horizontally.

Manually press the arm so the ball holder contacts the sample, as the level must be evaluated when the pin/ball is in contact with the surface.

Slightly loosen the tightening screw/knob.

Adjust the arm position up or down until the level indicator shows proper alignment.

Once the 1D arm and block holder aligned and level, tighten the sleeve
securely.

⚠️

The collets must be fully inserted into the arm

The ball holder and arm can remain suspended

Confirm the assembly is secure and aligned

⚠️

Please verify this important aspect of the setup, as they can be easily forgotten or ignored, possibly affecting the quality of the testing and result.

Ensure that :

the lower module and the universal sample holder (rotary/reciprocating..) are secured, chamber cables are connected if used.

Fz and Fz cables are connected.

Ball or Block are tightened on the holder.

Arm is leveled and the collet fully inserted and aligned.

Adequate suspension is used.

⚠️

Important Note for a Chamber Setup

Please dont remove the lids (top cover of your chamber) at this point, until the homing have been done, to avoid any collision during the displacement.

Load Cell Verification and Calibration

Identify The Calibration Kit Components

1. Force gauge

(1N, 10 N, 100 N, 250 N range available)

2. Force gauge tip

3. Manual stage micrometer knob

4. A clamp for digital indicator

Digital indicator

It is possible to untighten the screw of the clamp to insert a displacement gauge in front of the force gauge.
The digital indicator needs to have a 3/8” mounting stem to be held by the clamp.

The digital indicator is required for the Z depth calibration of the indenter.

5. Calibration kit base plate

More information

The adaptor plate

It has the dimensions of the X, Y table round hole to place the sensor on an MFT-
5000 / MFT-2000 or SMT-5000. It has holes on one direction. These holes need to be in

the X direction. The sensor can be mounted in a different X position in some cases
where the central position cannot allow a proper calibration.

The Angle bracket

It has 4 screws on the bottom and 4 on the side to connect the calibration sensor to
the adaptor plate.

The calibration sensor

The calibration sensor is composed of a force gauge, a tip, a manual micrometer
knob, a clamp for a digital indicator and the positioning screws.

Starting with Fz measurement

Mounting the Kit for Fz measurement

Install or ensure the kit sensor is correctly mounted onto the adaptor plate
The Calibration kit fixed by 4 x screws in the middle of the adaptor plate

Install the montage onto the motorized table, using x screws,

Switch on the calibratred sensors ,the tester and the software.

Keep suspensions and holders on the load cell.

Do a coarse approach using the jogbox.
Use XYZ axes control to align and approach the load cell tip to the force gauge tip (keep ~1mm spacing)

Manually rotate the micrometer knob to bring the two tips into contact.
Reset every force sensors, the load cell and the calibrated one.

Biasing the MFT sensors

Please refer to this animation as an example only.

On the right colum: CHANNEL DATA ,press the Red Bias Button next to each force/torque sensors.

Bias the Fz sensor.

Confirm the biasing operation. (Yes)

Bias the Fx sensor.

Other Sensors to bias when installed : Fx-piezo, Tz, TS, 6D

Manual stage micrometer head has a maximum load limit of 100N. To measure higher load, refer to
the last page of this manual.

Keep rotating until the target calibration force value is reached.

In case of Inacurate Sensor Value → 2 Points Calibration

Go to Configuration.

Press CONFIG next to the sensors to calibrate

Press CALIBRATE.

Press NO LOAD after ensuring that no force are applied on the MFT sensor.

Put a calibrated weight or, following the calibration calibration, apply the force in contact with the calibrated sensor.

Enter the weight mass, or the load measured in Newton (Kg not recommended for now) into the Step 2.

Press LOAD APPLIED

⚠️ The new offset may not be to far from the previous uncalibrated offset, otherwise you may have selected a incorrent range, or entered an incorrect calibrating point.

Addtionaly, you can verify on higher load the accuracy of the new unit range now defined.

Fx measurement

Firstly, move the calibrated kit to either the left or right position on the adapter plate, depending on your orientation

Then, you must the kit adapter to plate from the black upright panel

In case of Inacurate Sensor Value → 2 Points Calibration

Go to Configuration.

Press CONFIG next to the sensors to calibrate

Press CALIBRATE.

Press NO LOAD after ensuring that no force are applied on the MFT sensor.

Put a calibrated weight or, following the calibration calibration, apply the force in contact with the calibrated sensor.

Enter the weight mass, or the load measured in Newton (Kg not recommended for now) into the Step 2.

Press LOAD APPLIED

⚠️ The new offset may not be to far from the previous uncalibrated offset, otherwise you may have selected a incorrent range, or entered an incorrect calibrating point.

Addtionaly, you can verify on higher load the accuracy of the new unit range now defined.

Contact & Support

For technical support or further assistance, please contact:

Rtec-Instruments Support

support@rtec-instruments.com

+1 (408) 708-9226

www.rtec-instruments.com

Manual Versions

Manual Version	Date	Update Description
ㅤ	ㅤ	Initial Manual Version