advertisement
7.2 Auto Step Function
Step 8: Using each pair of and keys, set the value of the denominator m and the starting setpoint of the enumerator n.
(See Section 4.6, "Divided Output Function ( n/m), for further details.) The starting setpoint is the minimum of the variable n for auto step operation.
Step 9: Pressing the key initiates the automatic stepping of the divided output ( n/m), as described below.
Assuming the starting value of the variable n is 1, the output cyclically changes with the variable n as n changes in the following manner.
n = 1 →
2
→
3
→
· · · ( m – 1) → m →
( m – 1) →
· · ·
→
2
→
1
→
2
→
3
→
· · ·
Step 10: To quit the auto step function, turn off the calibrator by pressing the key. Place switch 1 back in the OFF (left-side) position. Note that disabling the divided output mode ( n/m) before placing switch 1 back in the OFF position enters sweep mode.
TIP
• Pressing the operation.
key to change to the SOURCE OFF state pauses the auto step
• To execute the auto step function again, press the tion resumes from the value of n shown on the LCD.
key. The auto step opera-
7
IM CA71-E
7-5
advertisement
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Related manuals
advertisement
Table of contents
- 50 Functions
- 51 Names and Functions of Parts
- 52 Before Starting Source/Measurement
- 53 Source
- 53 Connecting Cables to Terminals
- 53 Sourcing DC Voltage, DC Current or SINK Current Signal
- 53 Sourcing DC Voltage or DC Current Signal
- 53 4–20 mA Function
- 53 20 mA SINK Function
- 53 Using As 24-V Loop Power Supply
- 53 Sourcing Resistance or RTD Signal
- 53 Sourcing Thermocouple (TC) Signals
- 53 (Making Use of Reference Junction Compensation)
- 53 When No RJ Sensor Is Used
- 53 Sourcing Pulse Signals
- 53 Sourcing a Continuous Pulse Train
- 53 Sourcing the Preset Number of Pulses (Pulse Cycle)
- 53 Using the Contact Output
- 53 Divided Output Function (n/m)
- 53 Sweep Function
- 53 Auto Step Function
- 53 Temperature Monitor Function
- 54 Measurement
- 54 Connecting Cables to Terminals
- 54 AC Voltage or DC Current
- 54 Measuring 300 V AC-range Voltage
- 54 Measuring DC or AC Voltage
- 54 Measuring DC Current
- 54 Measuring Resistance or RTD (CA71 only) Signal
- 71 Measuring Temperature with Thermocouple (TC) - CA71 only
- 71 Measuring Frequency or Pulses
- 71 Operating the Calibrator for Frequency Measurement
- 71 Operating the Calibrator for Measuring Number of Pulses
- 72 Memory Functions
- 72 Saving Data into Memory
- 72 Saving Data in the Order of Memory Numbers
- 72 Saving Data by Selecting Desired Memory Number
- 72 Overwriting Data in Memory
- 72 Reading Data from Memory
- 72 Clearing Data in Memory
- 72 Clearing Data by Selecting Desired Memory Number
- 72 Clearing All In-Memory Data Globally
- 72 Sending Out Data from Memory - CA71 only
- 73 Functions Provided by DIP Switch
- 73 Sweep Function
- 73 Auto Step Function
- 73 Selecting the INT RJ Function
- 73 Selecting the IPTS-68 Function
- 73 Switch Not Used
- 73 Temp Switch
- 73 (Contact Input for Pulse Measurement)
- 73 Disabling the Automatic Power-off Feature
- 74 Communication Function - CA71 only
- 74 Cables Connection and Interface Specifications
- 74 Setting the Mode
- 74 Types of Mode
- 74 Data Format
- 74 Data Structure
- 74 Commands
- 74 Detailed Description of Commands
- 75 Troubleshooting
- 76 10. Method of Calibrator Adjustment
- 76 Requirements
- 94 Adjusting Source Functions
- 94 Adjusting Measurement Functions
- 94 Adjusting DC Voltage and DC Current Ranges
- 94 - CAL71 only
- 94 Post-adjustment Verification
- 95 11. Using Accessories
- 96 12. Specifications