8
Setpoint xto Monitor
This function allows Setpoints 1-4 to monitor the instantaneous, peak, valley, or peak minus valley
displays. The Increment or Decrement switches are used to cycle through the various displays. To signify
which display is being monitored, the least Significant 7-segment display will be illuminated as shown
below.
Setpoint xto be (SPxHI) {SPxHI, SPxLO}
This allows Setpoints 1-4 to be a High or Low Setpoint. The Increment or Decrement switches are used to
cycle through the HI or LO selection.
A High Setpoint is disabled when the compared value is less than the Setpoint value. The High Setpoint is
enabled when the compared value is equal to or greater than the Setpoint value.
A Low Setpoint is disabled when the compared value is greater than the Setpoint value. The Low Setpoint
turns on when the compared value is equal to or less than the Setpoint value.
Set Setpoint xValue (Set SP) {00000 to +/-99,999}
Setpoints 1-4 can be set for any value from 00000 to +/-99,999. This value along with the previous
selection of SP HI or SP LO determines when the optically isolated open-collector output transistors are
activated and the relevant SP enunciator is illuminated.
Hysteresis Low (HL) {000 to 200}
HL is the hysteresis value for all Setpoints set to SP LO. HL determines the value the displayed reading
must exceed the Setpoint value by before deactivating their respective open-collector output(s).
Hysteresis High (hh) {000 to 200}
HH is the hysteresis value for all Setpoints set to SP HI. HH determines the value the displayed reading
must get below the Setpoint value by before deactivating their respective open-collector output(s).
See appendix D for programming instructions.
Operating Instructions
Turn-On Instructions
Reference Figures 3 and 4 for proper input and output signal wiring.
1.Apply power to the instrument.
2.Verify the instruments readout momentarily displays a relx.xr firmware version number.
Program Instructions
(4) front panel switches allow the user to program Cal Mode, LSD, Decimal Point (dP), Filter Value, Filter
Window (bAnd), Calibration Number (CAL), Scale, Full Scale Number (FS), Setpoint to Monitor (SP-),
Setpoint to be (SP HI), Setpoint value (Set SP), Hysteresis Low (HL), Hysteresis High (HH) and Baud rate
values.
Interface Inc ●· 7401 East Butherus Drive, Scottsdale, Arizona 85260 USA● Phone 480.948.5555 ● Fax: 480-948.1924
www.interfaceforce.com ● Email: contact@interfaceforce.com ● ORDER TOLL-FREE 800.947.5598
9
Value, Filter Window (bAnd), Calibration Number (CAL), Scale, Full Scale Number (FS), Setpoint to Monitor
(SP-), Setpoint to be (SP HI), Setpoint value (Set SP), Hysteresis Low (HL), Hysteresis High (HH) and Baud
rate values.
To exit the MODE sequence without enabling a change, depress the RESET switch. All entries prior to
RESET, not including the function active at RESET, will be updated.
Calibration Instructions
The Model 9860 provides three (3) calibration modes. In the OFF state, the CAL1 and CAL2 manual
entry modes are disabled.
1. CAL1
2. CAL2
3. TEDS
Auto calibration when connecting to a TEDS, Template #33 configured transducer, with TEDS
sensing pin. In the TEDS AUTO MODE, the unit self calibrates to the MAXIMUM FORCE and
MAXIMUM OUTPUT values found in the TEDS transducer.The 9860 updates the CAL value to the
MAXIMUM FORCE value read from the TEDS template.
Calibration is automatic if the 9860 senses a TEDS connection and is able to read the TEDS
microchip imbedded in the transducer. Simply connect the TEDS transducer to the 9860 and apply
power. The displayed reading and analog outputs are automatically calibrated.
The TEDS parameters are stored in non-volatile memory. When the TEDS transducer is
disconnected and reconnected or a different TEDS transducer, with sensing pin, is connected, the
unit automatically self calibrates, without the need for power recycling. The TEDS LED indicates
the state of the TEDS connection. See TEDS INDICATOR AND BLINK CONFIGURATIONS for detail
description. See appendix B & C for programming instructions.
TEDS Indicator LED behavior
The following TABLE describes the functionality of the red TEDS led. The led is ON when a
combination of TEDS SENSE switch or TEDS ROM is detected. The particular combination is
indicated by the led activity. If the TEDS SENSE switch and valid TEDS ROM data are detected, the
led is ON steady. If TEDS SENSE switch is detected and valid TEDS ROM is not detected, the led
84928 - 9860 Manual 13-76B_8.5x5.5.indd 8 6/12/18 4:10 PM
Setpointxto Monitor
This function allows Setpoints 1-4 to monitor the instantaneous, peak, valley, or peak minus valley
displays. The Increment or Decrement switches are used to cycle through the various displays. To signify
which display is being monitored, the least Significant 7-segment display will be illuminated as shown
below.
Setpoint xto be (SPxHI) {SPxHI, SPxLO}
This allows Setpoints 1-4 to be a High or Low Setpoint. The Increment or Decrement switches are used to
cycle through the HI or LO selection.
A High Setpoint is disabled when the compared value is less than the Setpoint value. The High Setpoint is
enabled when the compared value is equal to or greater than the Setpoint value.
A Low Setpoint is disabled when the compared value is greater than the Setpoint value. The Low Setpoint
turns on when the compared value is equal to or less than the Setpoint value.
Set Setpoint xValue (Set SP) {00000 to +/-99,999}
Setpoints 1-4 can be set for any value from 00000 to +/-99,999. This value along with the previous
selection of SP HI or SP LO determines when the optically isolated open-collector output transistors are
activated and the relevant SP enunciator is illuminated.
Hysteresis Low (HL) {000 to 200}
HL is the hysteresis value for all Setpoints set to SP LO. HL determines the value the displayed reading
must exceed the Setpoint value by before deactivating their respective open-collector output(s).
Hysteresis High (hh) {000 to 200}
HH is the hysteresis value for all Setpoints set to SP HI. HH determines the value the displayed reading
must get below the Setpoint value by before deactivating their respective open-collector output(s).
See appendix D for programming instructions.
Operating Instructions
Turn-On Instructions
Reference Figures 3 and 4 for proper input and output signal wiring.
1.Apply power to the instrument.
2.Verify the instruments readout momentarily displays a relx.xr firmware version number.
Program Instructions
(4) front panel switches allow the user to program Cal Mode, LSD, Decimal Point (dP), Filter Value, Filter
Window (bAnd), Calibration Number (CAL), Scale, Full Scale Number (FS), Setpoint to Monitor (SP-),
Setpoint to be (SP HI), Setpoint value (Set SP), Hysteresis Low (HL), Hysteresis High (HH) and Baud rate
values.
Interface Inc ●· 7401 East Butherus Drive, Scottsdale, Arizona 85260 USA● Phone 480.948.5555 ● Fax: 480-948.1924
www.interfaceforce.com ● Email: contact@interfaceforce.com ● ORDER TOLL-FREE 800.947.5598
9
Value, Filter Window (bAnd), Calibration Number (CAL), Scale, Full Scale Number (FS), Setpoint to Monitor
(SP-), Setpoint to be (SP HI), Setpoint value (Set SP), Hysteresis Low (HL), Hysteresis High (HH) and Baud
rate values.
To exit the MODE sequence without enabling a change, depress the RESET switch. All entries prior to
RESET, not including the function active at RESET, will be updated.
Calibration Instructions
The Model 9860 provides three (3) calibration modes. In the OFF state, the CAL1 and CAL2 manual
entry modes are disabled.
1. CAL1
2. CAL2
3. TEDS
Auto calibration when connecting to a TEDS, Template #33 configured transducer, with TEDS
sensing pin. In the TEDS AUTO MODE, the unit self calibrates to the MAXIMUM FORCE and
MAXIMUM OUTPUT values found in the TEDS transducer.The 9860 updates the CAL value to the
MAXIMUM FORCE value read from the TEDS template.
Calibration is automatic if the 9860 senses a TEDS connection and is able to read the TEDS
microchip imbedded in the transducer. Simply connect the TEDS transducer to the 9860 and apply
power. The displayed reading and analog outputs are automatically calibrated.
The TEDS parameters are stored in non-volatile memory. When the TEDS transducer is
disconnected and reconnected or a different TEDS transducer, with sensing pin, is connected, the
unit automatically self calibrates, without the need for power recycling. The TEDS LED indicates
the state of the TEDS connection. See TEDS INDICATOR AND BLINK CONFIGURATIONS for detail
description. See appendix B & C for programming instructions.
TEDS Indicator LED behavior
The following TABLE describes the functionality of the red TEDS led. The led is ON when a
combination of TEDS SENSE switch or TEDS ROM is detected. The particular combination is
indicated by the led activity. If the TEDS SENSE switch and valid TEDS ROM data are detected, the
led is ON steady. If TEDS SENSE switch is detected and valid TEDS ROM is not detected, the led
84928 - 9860 Manual 13-76B_8.5x5.5.indd 8 6/12/18 4:10 PM
84928 - 9860 Manual 13-76D_8.5x5.5.indd 8 10/19/20 11:10 AM
