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Table of Contents
Related Manuals for Unipulse F600AT
Summary of Contents for Unipulse F600AT
- Page 1 F600AT WEIGHING CONTROLLER OPERATION MANUAL 01MAY2015REV.3.01...
- Page 2 Thank you very much for purchasing our Weighing Controller F600AT. For good performance, and proper and safe use of the F600AT, be sure to read this instruction manual and properly understand the contents of it before use. Also, carefully keep this instruction manual so that it can be referred to at any time.
- Page 3 Warning on design ● For the entire system to function safely when the F600AT becomes faulty or malfunctions, provide a safety circuit outside the F600AT. ● Before using the F600AT as described below, make sure to consult with our sales personnel.
- Page 4 ● In the case of smoke, an abnormal smell or strange sound, immediately turn off the power, and disconnect the power cable. ● As for the batteries used in F600AT, do not at any time dismantle the batteries, change the batteries shape by subjecting it to pressure or throw the batteries into fires as these may cause the batteries to explode, catch fire or leak.
- Page 5 ● For turning on/off the power, be sure to keep intervals of 5 seconds or more. ● After power-on, make sure to warm up the F600AT for at least 30 minutes or more before use. ● If the F600AT is not used by the specified method, its protective performance may be impaired.
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Page 6: Table Of Contents
2-8-3. External input connection ............10 2-8-4. RS-232C interface connection ..........11 3. SETTING MODE CONFIGURATION ............12 3-1. F600AT Screen Configuration ............12 3-2. About a Setting Call ................13 3-3. Setting Modes Tree ................14 4. CALIBRATION .................... 16 4-1.... - Page 7 CONTENTS 4-5. Unit Setting ..................19 4-6. Tare Subtraction ................19 4-7. Digital Zero ..................20 4-7-1. DZ regulation value ..............20 5. COMPARISON SETTING ................21 Comparison mode setting, Comparison inhibiting time/ Judging time/ Completion output time, Availability of fall compensation/ Fall compensating coefficient/ Average count of fall compensation, Discharge control mode, Completion signal output mode, Overweight/underweight comparison mode, HI/LO limit comparison selection,...
- Page 8 CONTENTS 12. EXTERNAL INPUT/OUTPUT SIGNALS ........... 43 External input signals, External output signal 13. AUTOMATIC PRINT ................45 13-1. In HI/LO Limit Comparison ............... 45 13-2. In The Discharge Mode; Simple Comparison Mode ......45 13-3. In The Discharge Mode; Sequence Mode ........45 14....
- Page 9 CONTENTS 21. SETTING ITEM LIST ................65 22. SPECIFICATIONS ..................70 Analog Section, Display Section, Setting section, Communication, Option, External Input/Output, General Performance VIII...
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Page 10: 1. Outline
The packaging box contains the following. Be sure to check them before use. F600A WEIGHING CONTROLLER 15JAN2008REV.1.00 F600AT body ・ ・ ・ 1 operation manual ・ ・ ・ 1 AC power cable ・ ・ ・ 1 Jumper wire ・ ・ ・ 2 (Only at AC spec.) External input/output connector ・... -
Page 11: Rear Panel
This is the touch panel display for displaying an indicated value and graph set value and for setting various setting items of the F600AT. During measurement, a comparison display, hold display and graph display can be selected according to the function in use. - Page 12 1.OUTLINE ■ AC power source input connector/ DC power source input terminal block AC spec. Connect with AC power source cable supplied. AC voltage is 100V to 240V( 10%, -15%) AC frequency is 50Hz/60Hz. DC spec. (Designated when it is shipped.) Connect DC power source.
- Page 13 1.OUTLINE ■ Signal input/output connector HH/SP1 CODE0 HI/OVER CODE1 GO/SP2 CODE2/KEY_LOCK LO/UNDER LL/SP3 TARE ON TARE OFF STAB HOLD/JUDGE SI/F START SI/F STOP Compatible connector : FCN-361J024-AU Connector cover: FCN-360C024-B (Connector & cover optional type: CN50) ■ Frame ground Please ground the frame ground terminal to prevent failures due to static electricity. (The frame and the frame ground terminal are conducted.) It may be better to remove depending on the environment of the installation location.
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Page 14: 2. Connection
5. Tighten the screw with the screwdriver. 0.5Nm of tightening torque is recommended. 6. Lightly pull the wire to make sure that it is securely clamped. 7. Insert the wire-connected plug into the F600AT Pin No.1 body, and tighten the screws (two). -
Page 15: Loadcell Connection
350Ωloadcells can be connected in parallel. ■ 6-wire connection The loadcell input of the F600AT is a 6-wire (remote sense) connection. 6-wire shielded loadcell cable should be used and kept separate from AC or other noise generating wire. Loadcell... -
Page 16: Connecting Loadcells In Parallel
2.CONNECTION 2-3. Connecting Loadcells In Parallel Some industrial applications require several loadcells connected in parallel (e.g., tank or flow scales). A summing junction box should be used to facilitate connection and corner correction. ‘n’ (number) loadcells connected in +EXC parallel are considered one unit whose -SIG capacity is ‘n’... -
Page 17: Power Input Terminal Connection
AC, 7A. For use at voltages exceeding the rating and for overseas use, have a separate AC cable prepared. - Since the F600AT has no power switch, install a breaker. - Be sure to ground the protective ground terminal to prevent electric shocks. -
Page 18: Si/F Connection
2.CONNECTION 2-7. SI/F Connection The 2-wire serial interface has connective ability for coupling a UNIPULSE printer, external display, etc. The interface is nonpolarized and up to three external instruments may be connected. A two-core parallel cable or a cabtyre cable (Wire with covering thickened for construction) may be used for connection. -
Page 19: External Output Connection
2-8-2. External output connection The external output circuit is operated through an open collector. The open collector output capacity is 50mA and the withstand voltage is up to 30V. - Equivalent circuit Vext F600AT Inside Spark Killer Power Supply A2 ~ A10 Load... -
Page 20: Rs-232C Interface Connection
The following shows an example of connection between DTE-DTE terminals. This will require modification depending on the equipment to be connected. For details, see the operation manual of the equipment to be connected. PC etc. F600AT or equivalent TCP8080-015267 D-Sub 9pin... -
Page 21: 3. Setting Mode Configuration
3.SETTING MODE CONFIGURATION 3. SETTING MODE CONFIGURATION 3-1. F600AT Screen Configuration [Ordinary display screen] Set value entry from the ordinary display screen MODE BACK [Mode setting screen] EACH CODE Mode Keys [Set value selection screen] [Each code setting screen] BACK... -
Page 22: About A Setting Call
3.SETTING MODE CONFIGURATION 3-2. About a Setting Call Example) LOCK2 (Calibration Protection) This call can be made by the following procedure. Operation 1) Press the key on the ordinary display screen. Setting call MODE 2) The mode setting screen appears. Select the mode. Operation setting Can be changed key. -
Page 23: Setting Modes Tree
3.SETTING MODE CONFIGURATION 3-3. Setting Modes Tree Ordinary display screen MODE Mode setting screen Mode Keys Main display item EACH CODE COMPARISON OPERATION GRAPH When “HI-LO COMP” is PAGE1 PAGE1 PAGE1 selected by COMP MODE SEL COMP MODE SEL. (P.21) DIGITAL FILTER (P.28) GRAPHIC MODE (P.33) PAGE1... - Page 24 3.SETTING MODE CONFIGURATION SYSTEM CALIBRATION SEQUENCE MODE RS232C PAGE1 PAGE1 PAGE1 PAGE1 INITIALIZATION (P.34) ZERO CAL. (P.18) SEQUENCE MODE (P.36) COMM. MODE (P.46) SELFCHECK DSP1 (P.60) SPAN CAL. (P.19) ADJUST FEEDING (P.36) BAUD RATE (P.46) DELFCHECK MEM (P.60) EQUIV. CAL. (P.18) AT START NZ CONF.
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Page 25: 4. Calibration
4.CALIBRATION 4. CALIBRATION Calibration is performed for matching the F600AT to a loadcell. The following two types of calibration are available for the F600AT. ◇ Actual load calibration Apply an actual load to the loadcell and enter the actual load value by the keys for calibration. -
Page 26: Span Calibration Procedure
4.CALIBRATION 4-1. Span Calibration Procedure Follow the steps below to perform span calibration. Release the calibration protection. Lock2 Release Set the unit of the load to be displayed. Unit Setting Determine the decimal point place of the indicated value. Decimal Place (Can be omitted if there is no change.) Enter the minimum value of digital increments. -
Page 27: Calibration Setting
4.CALIBRATION 4-3. Calibration Setting 4-3-1. LOCK2 (Calibration value LOCK) Twice → [OPERATION] → → [LOCK2] MODE Set values relating to calibration are locked so as not to be changed by misoperation. Cancel the lock before performing calibration. Alternatives: [OFF] [ON] 4-3-2. -
Page 28: Span Calibration
4.CALIBRATION 4-3-6. Span calibration → Once → [CALIBRATION] [SPAN CAL.] → MODE Set the actual load value under an actual load. Setting range: 00001 to 99999 (The decimal point is selectable.) 4-4. Net Over/ Gross Over Once → → → Once →... -
Page 29: Digital Zero
4.CALIBRATION 4-7. Digital Zero * It operates it with the gross weight (GROSS) displayed. DZ The gross weight value is zeroed by this function. Alternatives: [RESET] [NO] [YES] : Perform the digital zero. : Go back to the previous screen without executing digital zero. : Reset the digital zero. -
Page 30: 5. Comparison Setting
5.COMPARISON SETTING 5. COMPARISON SETTING ■ Comparison mode setting Select the comparison mode. Alternatives: [HI - LO COMP] [DIS. - O/U] [DIS. - H/L] Explanation of each alternative HI/LO limit comparison (HI - LO COMP) The net or gross weight is compared with the set values. Final discharge –... -
Page 31: Availability Of Fall Compensation/ Fall Compensating Coefficient
5.COMPARISON SETTING OVER FINAL UNDER FINAL – CPS FINAL – SP2 FINAL – SP1 NEAR ZERO Time STAB output END output Completion output time Completionl output time setting ■ Availability of fall compensation/ Fall compensating coefficient/ Average count of fall compensation Variations in fall, which is a major cause of errors in weighing, are automatically compensated by this function for accurate weighing. - Page 32 5.COMPARISON SETTING Example) Final 20.000 Auto Free Fall Compensation Regulation 0.100 Average count of AFFC. CPS coefficient Times Actual Weighing Error Average count of AFFC. ← Power ON 20.050 +0.050 0.500 20.040 +0.040 0.500 20.070 +0.070 0.500 20.080 +0.080 0.500 4 →...
- Page 33 5.COMPARISON SETTING ■ Discharge control mode Valid in the discharge mode. Select FEEDING or DISCHARGE. By selecting EXTERNAL, switching is carried out between FEEDING and DISCHARGE according to the level of the input terminal “F/D.” FEEDING DISCHARGE F/D (B10) Indeterminate interval (within 50msec.) Alternatives: [FEEDING]...
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Page 34: Hi/Lo Limit Comparison Selection
5.COMPARISON SETTING ■ HI/LO limit comparison selection Valid when “HI - LO COMP” or “DIS. - H/L” is selected by COMP MODE SEL. Select the weight value for HI-HI limit, HI limit, LO limit, and LO - LO limit comparisons. By selecting [COMP OFF], all comparisons are turned OFF. -
Page 35: 6. How To Set The Functions
6.HOW TO SET THE FUNCTIONS 6. HOW TO SET THE FUNCTIONS □ Code No. selection Press the key on the each code setting screen, and specify the code No. you want to set. Setting range: [0 to 7] [ALL] When each item is set with the code No. specified as “ALL,” the same set value enters into all of code 0 to 7 on the set item. -
Page 36: For Final Discharge - Over Weight/Under Weight Comparison
6.HOW TO SET THE FUNCTIONS ■ For final discharge – over weight/under weight comparison (when “DIS.-O/U” is selected by comp mode sel.) Setting item Input range [FINAL] 00000 to 99999 [SP1] 00000 to 99999 [SP2] 00000 to 99999 [CPS] 0000 to 9999 [AFFC] 00000 to 99999 [OVER]... -
Page 37: 7. Operation Setting
7.OPERATION SETTING 7. OPERATION SETTING ■ Digital filter The A/D-converted data is moved and averaged to suppress the instability of the indicated value by this characteristic. The number of moving averages is selectable in the range of 0 - 256. With an increasing number, the instability of the indicated value can be suppressed, but the response to input deteriorates. - Page 38 7.OPERATION SETTING ■ Zero tracking period/ Zero tracking range Slow changes in zero point due to drifting are automatically tracked and compensated by this function. ZT (PERIOD): 0.0 to 9.9 (sec.) ZT (RANGE): 00 to 99 (CNT) - Zero tracking automatically takes the zero point at the preset intervals when the amount of movement of the zero point is less than the preset range ×...
- Page 39 7.OPERATION SETTING ■ Backlight lighting time/ Backlight bright-and-dark time This function changes the brightness of the backlight when touch screen has not been used for certain period of time. The ON time ( lighting time of the backlight) and the Low time ( bright→dark switching time of the backlight) are set up.
- Page 40 7.OPERATION SETTING ■ HI/LO limit output selection Select the method of comparison output in the HI/LO limit comparison mode. Alternatives: [NORMAL] [COMPARATOR] □ Explanation of each alternative [NORMAL] Signal name Condition ON when the preset HI-HI limit < weight value ON when the preset high limit <...
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Page 41: 8. Graph Setting
8.GRAPH SETTING 8. GRAPH SETTING □ Graphic display screen Graph is updated while operating on the ordinary display screen (a comparison, a hold, graph). Cursor ON/OFF key Y-axis (load axis) X-axis (time axis) Graphic display START/STOP Indicated value display (At cursor ON time, the cursor point value is displayed.) When the cursor display is on and when the setting screen is open, the graph is not upgraded. - Page 42 8.GRAPH SETTING ■ Graphic mode Select the method of drawing. Alternatives: [CONTINUITY] [SINGLE] [LEVEL] □ Explanation of each alternative [CONTINUITY] Drawing is started by the key, and drawing is repeated until the STOP START key is input. Drawing is started by the key, and only one screen is drawn.
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Page 43: 9. System
9.SYSTEM 9. SYSTEM ■ Initialization All the set values of each setting item are initialized to their factory defaults. Select the setting item you want to initialize. Alternatives: [CODE] [COMP.] [OPR.] [CAL.] [etc.] * If LOCK1/LOCK2 of setting item which you intend to initialize is ON, the initialization cannot be executed. - Page 44 9.SYSTEM ■ B4 terminal function selection Selection of the KEY_LOCK terminal function from the CODE2 terminal function by the B4 Function Selection setting makes the following effective. KEY_LOCK: When the terminal is short-circuited, all key operations are disabled. When KEY_LOCK terminal function is selected, measurement code that can be specified from the outside can be specified by CODE0 terminal,CODE1 terminal.
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Page 45: 10. Sequence Setting
10. SEQUENCE SETTING Operation is performed by following the sequence that weighing is started by inputting the ON edge to the start signal (external input/output connector pin B11) of the F600AT, and weighing is finished by the completion signal. This is valid only in the discharge mode. - Page 46 10.SEQUENCE SETTING ■ Weight confirmation at start time The setting is valid in the sequence mode. Alternatives: [OFF] [ON] When the start signal is input, if (1) the net ≧ final weight – SP1, or (2) the final weight – CPS≦0, the feeding gate signal (SP1, SP2, or SP3) is not turned ON, but a sequence error results.
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Page 47: 11. Timing Chart
11.TIMING CHART 11.TIMING CHART 11-1. Feed Weighing (In The Simple Comparison Mode) OVER FINAL UNDER FINAL – CPS FINAL – SP2 FINAL – SP1 NEAR ZERO Time NZ output SP1 output SP2 output SP3 output Comparison t1: Comparison inhibiting time inhibiting time COMP.INH.TIME under COMPARISON... -
Page 48: Discharge Weighing (In The Simple Comparison Mode)
11.TIMING CHART 11-2. Discharge Weighing (In The Simple Comparison Mode) GROSS for high/low limit comparison, and NET for final weight, before-final-weight,and near zero comparisons. GROSS (In discharge weighing, NET is compared negatively.) Materials are fed until the HI limit signal is output. LO limit Time FINAL –... -
Page 49: Sequence Control
11.TIMING CHART 11-3. Sequence Control 11-3-1. Normal sequence OVER FINAL UNDER FINAL – CPS FINAL – SP2 FINAL – SP1 NEAR ZERO Time TARE ON input START input STOP input SP1 output SP2 output SP3 output END output t1: Comparison inhibiting time Judgment output COMP.INH.TIME under (OVER or Proper or UNDER) -
Page 50: Sequence When The Adjust Feeding Is On
11.TIMING CHART 11-3-2. Sequence when the adjust feeding is ON START input STOP input SP1 output SP2 output SP3 output END output t1: Comparison inhibiting time COMP.INH.TIME under COMPARISON Judgment output (OVER) t2: Judging time JUDGING TIME under Comparison inhibiting time COMPARISON t3: Completion output time COMPLETE OUT T. -
Page 51: About The Stop Signal
11.TIMING CHART 11-3-4. About the stop signal START input STOP input SP1 output SP2 output SP3 output ERR output When the STOP signal is turned ON, all the signals of the SP1 output, SP2 output and SP3 output are turned OFF. If the START signal is turned ON when the STOP signal is ON, a sequence error will result. -
Page 52: 12. External Input/Output Signals
12.EXTERNAL INPUT/OUTPUT SIGNALS 12. EXTERNAL INPUT/OUTPUT SIGNALS ■ External input signals (1) CODE0 to CODE2 <Level input> (B2, B3, B4) Input signals to specify codes for weighing externally. CODE2 CODE1 CODE0 Selected CODE Open Open Open Open Open Shorted Open Shorted Open Open... - Page 53 12.EXTERNAL INPUT/OUTPUT SIGNALS (8) F/D (Charge/Discharge) <Level input> (B10) This is valid when charge/discharge selection is external. OFF will result in charge control, and ON will result in discharge control. (Refer to page 24.) These are valid when the control is (9) START (Start) <Edge input>...
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Page 54: 13. Automatic Print
13.AUTOMATIC PRINT 13. AUTOMATIC PRINT The F600AT can output an automatic print command to the printer or indicator connected to the SI/F. The automatic print output timing varies depending on the setting. 13-1. In HI/LO Limit Comparison The command is output at the ON edge of the stable status when the near zero signal is OFF. If the automatic print is output, it can next be output after the near zero signal is once turned ON. -
Page 55: 14. Rs-232C Interface
14.RS-232C INTERFACE 14. RS-232C INTERFACE The RS-232C is an interface to read the indicated value and status of the F600AT and to write parameters into the F600AT. This interface is convenient to process controls, totals, records, etc., by connecting the F600AT to a computer, process controller, sequencer or the like. -
Page 56: Communication Format
■ Flow control Alternatives: [OFF] [RTS/CTS] 14-3. Communication Format 14-3-1. Handshake Gross read (sign, 5-digit weight, decimal place) Host + Terminator F600AT Net read (sign, 5-digit weight, decimal place) Host + Terminator F600AT Tare read (sign, 5-digit weight, decimal place) Host +... - Page 57 14.RS-232C INTERFACE Status read (7-digit) Host Terminator F600AT Near zero 1: ON HI-HI limit 1: ON 0: OFF 0: OFF LO-LO limit 1: ON HI limit 1: ON 0: OFF 0: OFF LO limit 1: ON Proper weight 1: ON...
- Page 58 - When the digit is less than five digits, it treats by "0". Example) Comparison prohibition time read It sends it back by 0. Host Sign Terminator F600AT Command No. Parameter - Command ZERO CALIBRATION SPAN CALIBRATION GROSS SELECTION...
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Page 59: Continuous Transmission/ Transmission At Print-Time
14.RS-232C INTERFACE 14-3-2. Continuous transmission/ Transmission at print-time The formats of continuous transmission and transmission at print-time are common. Parameters cannot be read or written. Sign Weight value (with a decimal point) Header , , , Terminator , ± , ,... -
Page 60: 15. Bcd Data Output (Option)
15.BCD DATA OUTPUT (OPTION) 15. BCD DATA OUTPUT (OPTION) The BCD data output is an interface to extract the indicated value of the F600AT as BCD data. This interface is convenient to process controls, totals, records, etc., by connecting the F600AT to a computer, process controller, sequencer or the like. -
Page 61: Equivalent Circuit
15.BCD DATA OUTPUT (OPTION) 15-2. Equivalent Circuit - Output The signal output circuit is operated through a TTL open collector. F600AT - Internal transistor status Vext Output data Negative Positive Inside Outside Vceo=30V(max) Ic =50mA (max) Through logic switching (B14) -
Page 62: Signal Output Timing
15.BCD DATA OUTPUT (OPTION) 15-4. Signal Output Timing - P.C Note: P.C should also be acquired in synchronization with the strobe signal as in the case of the data signal. (Refer to page 53.) ● HI/LO limit output ON at stable-time, OFF at unstable-time. BCD data ●... -
Page 63: Bcd Data Output Setting
15.BCD DATA OUTPUT (OPTION) 15-5. BCD Data Output Setting ■ Data output rate Alternatives: [100 times] [50 times] [20 times] [10 times] [5 times] [2 times] ■ Output weight Alternatives: [INDICATE] [GROSS] [NET] Select the weight value for BCD output. If “INDICATE” is selected, the weight indicated by the indicator is output. -
Page 64: 16. D/A Converter (Option)
0 to +10V and 4 to 20mA can be obtained by the voltage output and current output, respectively. - Taking voltage output signals Connect external equipment (2kΩ or more load resistance) to + and - of the F600AT. For connection, refer to "Connection of the D/A Converter Options" page 56. F600AT ←... -
Page 65: Connection Of The D/A Converter Options
16.D/A CONVERTER (OPTION) - Resolution The D/A converter has a resolution of 1/10000 to 0 to 10V (4 to 20mA). Notice - The D/A converter is optional. - Do not apply external voltage because it will break. - Do not short-circuit the voltage output because a failure will occur. Also, connecting a capacitive load may cause oscillation. -
Page 66: D/A Converter Setting
16.D/A CONVERTER (OPTION) 16-2. D/A Converter Setting ■ D/A output mode Alternatives: [GROSS] [NET] [ZERO SCALE] [FULL SCALE] Explanation of each item GROSS: Output is ganged with the gross. NET: Output is ganged with the net. ZERO SCALE: The output is fixed at zero output (0V or 4mA). FULL SCALE: The output is fixed at full scale (10V or 20mA). -
Page 67: 17. Error Message
17.ERROR MESSAGE 17. ERROR MESSAGE “+LOAD” or “-LOAD” Voltage exceeding the ADC input range is input. Check to see if the output voltage of the loadcell exceeds the range, and check the cables for breaks. This message is also displayed when wiring is incorrect or nothing is connected. “NET OVER”... - Page 68 17.ERROR MESSAGE “SEQ. ERR 4” [Cause] The near zero signal is OFF when weighing is started. (On condition that it is set to confirm the near zero signal when weighing is started.) [Remedy] First, check the preset near zero value and near zero comparison target. Next, check to see if: 1.
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Page 69: 18. Self-Check
18.SELF-CHECK 18. SELF-CHECK Self-check is performed when the setting is called. ■ Self-check DSP1 Check the display to see that it is free from color and display defects, etc. The screen changes from red, green, blue, horizontal stripes, to vertical stripes. Touching the screen restores the previous screen. ■... -
Page 70: 19. Block Diagram
19.BLOCK DIAGRAM 19. BLOCK DIAGRAM +SIG Low-pass ×100 -SIG Fillter Converter +EXC Excitation Referrence -EXC Voltage Voltage Standard RS-232C SHIELD FRAME Serial Watch Port 32bit Flash External Flash 256kbyte Serial Port External Lithem battery 16kbyte SRAM NOV.RAM Port Port 4096bit Serial Port Port... -
Page 71: 20. Dimensions
20.DIMENSIONS 20. DIMENSIONS ■ Standard equipment Unit: mm < > Front Side Rear < > < > < > ■ When the external input/output signals is connected Unit: mm < > Front Side Rear < > < > < >... - Page 72 20.DIMENSIONS ■ When the BCD option is equipped Unit: mm < > Front Side Rear < > < > < > ■ When the CC-Link option is equipped Unit: mm < > Front Side Rear < > < > < >...
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Page 73: When The Devicenet Option Is Equipped
< > < > < > 20-1. Installation in a Panel To install the F600AT into a control panel, use the following procedure. 1. Make a hole in the panel according to the panel-cut 92mm dimensions. Panel-cut dimensions 92mm Panel thickness 1.6 to 3.2mm... -
Page 74: Setting Item List
21.SETTING ITEM LIST 21. SETTING ITEM LIST * L1: Setting that LOCK is controlled by LOCK1 * L2: Setting that LOCK is controlled by LOCK2 * S: Saved in SRAM (Lithium-battery-backed-up) * N: Saved in NOV.RAM (Saved in non-volatile memory) EACH CODE (Comparison mode: HI-LO COMP) Communication Parameter... - Page 75 21.SETTING ITEM LIST COMPARISON Communication Parameter Initial value L1 L2 PAGE Alternatives・Setting range Command No. 0:[HI-LO COMP]1:[DIS.-O/U] COMP MODE SEL. HI-LO COMP 31(R/W) 〇 〇 2:[DIS.-H/L] COMP. INH. TIME 0.50sec. 0.00 ~ 9.99 32(R/W) 〇 〇 JUDGING TIME 1.50sec. 0.00 ~ 9.99 33(R/W) 〇...
- Page 76 21.SETTING ITEM LIST GRAPH Communication Parameter Initial value L1 L2 PAGE Alternatives・Setting range Command No. 0:[CONTINUITY]1:[SINGLE] GRAPHIC MODE CONTINUITY 51(R/W) 〇 〇 2:[LEVEL] TRIGGER LEVEL 001.00 00000 ~ 99999 52(R/W) 〇 〇 X END POINT 10sec. 2 ~ 98 53(R/W) 〇...
- Page 77 21.SETTING ITEM LIST SYSTEM Communication Parameter Initial value L1 L2 PAGE Alternatives・Setting range Command No. INITIALIZATION CODE [CODE] [COMP.] [OPR.] SELFCHECK DSP1 [CAL.] [etc.] SELFCHECK MEM SELFCHECK KEY SELFCHECK EXT SELFCHECK DSP2 SELFCHECK COM PASSWORD 0000 0000 ~ 9999 LANGUAGE 69(R/W) 0: [JPN]1:[ENG]...
- Page 78 21.SETTING ITEM LIST SEQUENCE MODE Communication Parameter Initial value L1 L2 PAGE Alternatives・Setting range Command No. SEQUENCE MODE SIMPLE COMP. 91(R/W) 〇 0:[SIMPLE COMP.] 1:[SEQUENCE] 〇 ADJUST FEEDING 92(R/W) 0:[OFF]1:[ON] 〇 〇 AT START NZ CONF. 93(R/W) 0:[OFF]1:[ON] 〇 〇 AT START WV CONF.
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Page 79: Specifications
22.SPECIFICATIONS 22. SPECIFICATIONS ■ Analog Section Sensor excitation 10V DC Output current: Within 120mA 6-wire (Up to four 350Ωload cells can be connected.) Signal input range -0.2 to 3.0mV/V Zero adjusting range -0.2 to 3.0mV/V Accuracy Nonlinearity Within 0.02%FS ±1digit (When 3mV/V is input) Zero drift Within 0.25μV/ ℃... - Page 80 22.SPECIFICATIONS ■ Communication RS-232C communications interface Asynchronous communication method Baud rate 1200bps to 19200bps SI/F (2-wire serial interface) 2-wire serial interface for connecting a UNIPULSE-manufactured printer, external display, etc. Asynchronous communication method Baud rate 600bps ■ Option BCD data output Open collector output The output rate can be changed.
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