AD-4410 Weighing Indicator INSTRUCTION MANUAL 1WMPD4002591
WARNING DEFINITIONS The warnings described in this manual have the following meanings: A potentially hazardous situation which, if not avoided, could result in death or serious injury. A potentially hazardous situation which, if not avoided, may result in minor or moderate injury or damage to the instrument. This symbol indicates caution against electrical shock. Do not touch the part where the symbol is placed. This symbol indicates the ground terminal.
Contents 1. 2. 3. 4. 5. 6. 7. 8. Safety Precautions .......................................................................................................3 Introduction...................................................................................................................4 Specifications ...............................................................................................................5 3.1. Analog Section .........................................................................
9. 10. 11. 12. 8.3. Basic Functions (fncf).........................................................................................43 8.4. Hold ......................................................................................................................45 8.5. Control I/O ............................................................................................................46 8.6. Standard Serial (current loop) ..............................................................................
1. Safety Precautions For safe and correct usage, read the following precautions carefully before using the indicator. Grounding Be sure to ground the AD-4410 when using it. Do not use the same grounding wire that power-driven equipment such as motors or inverters are using. Accidents such as electrical shocks, fire, or malfunctions may occur if the instrument is not grounded properly. Using proper power cables Be sure to use the provided power cable.
2. Introduction The AD-4410 is a weighing indicator that amplifies signals from a load cell, converts it to digital data and displays it as a mass value. The accessory panel mount packing will provide the indicator with IP-65 protection. This indicator has the following performance: Input sensitivity: ......................... 0.15 μV /d Display resolution: ..................... 999,999 d max. (Less than 20,000 d recommended) Sampling rate:............................ 100 times/second Input voltage range:..
3. Specifications 3.1. Analog Section Input sensitivity Input voltage range Zero adjustment range Load cell excitation voltage Load cell drive capacity Temperature Zero coefficient Span Nonlinearity A/D conversion method A/D resolution count Display resolution Sampling rate 0.15 μV/d or greater -35 mV to +35 mV (-7 mV/V to +7 mV/V) -35 mV to +35 mV (-7 mV/V to +7 mV/V) 5VDC 5%, 120 mA with remote sensing capability Maximum 8 x 350 Ω load cells 0.02 μV /°C typ., 0.1 μV /°C max. 3ppm /°C typ., 15ppm /°C max.
3.3. General 3.3.1. Interface Control I/O Standard serial output Input: open collector Output: photo coupler DIN connector 8 pin Output for communication with A&D peripheral devices (20 mA current loop) DIN connector 7 pin RS-232C (Standard equipment) D-sub 9 pin male RS-232C/RS-485 (Option) It is possible to change the current loop to the RS-232C (ch2) or RS-485. RS-232C AD4410-04 RS-485 AD4410-03 3.3.2. Measuring functions • Sets the gross weight to zero by pressing the ZERO key.
3.3.3. Other Data backup against power failures Power source Power consumption Operating temperature Operating humidity Installation method Mass • Zero value, tare weight, calibration data and function data are written into the FRAM. • Data retention time is 10 years or more. 100 VAC to 240 VAC (50/60 Hz) Approximately 10 VA -10°C to +40°C 85% R.H. or less (no condensation) Panel mount Approximately 800 g 3.3.4.
4. Description of Each Part 4.1. Front Panel 1 15 14 ZERO TARE 13 12 Net/B/G NET GROSS ZERO STABLE GROSS NET HOLD 9 ON/OFF ESC ENTER 10 11 CAL 16 2 3 4 5 6 7 8 Fig.1 Front panel Displays No. Name 1 Main display 2 ZERO 3 STABLE 4 5 GROSS NET 6 HOLD 7 8 UNIT AD-4410 Description Displays the weight value, setting values, error messages, etc. Turns ON when the weight value is in the center of zero. • Turns ON when the weight value is stable.
Key switches No. Name 9 10 11 CAL ON/OFF ESC ENTER Net/B/G NET GROSS 14 TARE 15 ZERO 16 • The key to proceed to the selected mode. • Stores the data when pressed after a setting is changed. • The function for this key can be selected in the general functions, from the list below: No function Manual print command Hold Alternate switch Momentary switch Clear the tare weight Clear the zero value • The key decreases the value of the blinking digit by one when the numerical values are being entered.
4.2. Rear Panel 3 6 4 5 2 1 Fig.2 Rear panel No. 1 2 3 4 5 6 AD-4410 Description AC power plug Load cell terminal Standard serial output (RS-232C output) Standard serial output (Current loop output) As an option, the current loop output can be changed to RS-485 or RS-232C (ch2). Control I/O Sealing bolt Can be sealed with wire.
5. Installation The weighing indicator is a precision electronic instrument. Handle it carefully. 5.1. Precautions 5.1.1. Environment The operating temperature range is -10°C to +40°C . Do not install the indicator in a position where it is exposed to direct sunlight. The indictor is not water-resistant. When used in an environment where the indicator may be exposed to splashing water, secure the front panel to the control panel using the accessory panel mount packing.
5.1.2. Power source Earth ground the indicator to prevent electrical shock or indicator malfunction. Before connecting the indicator to the power source, read the instruction manual thoroughly. Do not connect the indicator to the power source before the installation is complete. To avoid electrical shock, do not handle the power cable with wet hands. Earth ground the indicator. Do not share the ground line with other electrical power equipment.
5.2. Type of load cell cables The load cell cable must have high insulation and shield performance. Use a shield cable that is made with a material with high insulation resistance, such as Teflon or polyethylene. For best results, we recommend using A&D's load cell cables. AX-KO162-5M to 100M (5m to 100m) Cable diameter…φ9mm Cross-sectional area of the conducting wire…0.5mm2 6 wire cable equipped 5.3.
Terminal No.
Method 6-wire configuration (recommended) 4-wire configuration Merit Demerit Even if load cell cables are lengthened or thin load cell cables are used, error margins are Wiring is somewhat kept low. difficult. Error margins are also kept low where multiple load cells are used. The temperature coefficient will be negatively affected by the lead resistance of Wiring is easy. the load cell cable. Contact resistance from the connector etc. will also have an effect.
6. Operation 6.1. General Functions 6.1.1. Zero adjustment Zero adjustment is a function to set the gross weight to zero. It is performed by pressing the ZERO key. The zero adjustment range is set in Calf05 (zero adjustment range) and is expressed as a percentage of the weighing capacity with the calibration zero point as the center. Zero adjustment is disabled, even within the zero adjustment range, if an A/D converter overflow occurs. A ZERO error is output if zero adjustment is not performed.
6.1.3. Tare Tare is a function to store the gross weight as the tare value and set the net weight to zero. The tare weight is stored in the non-volatile memory and is maintained, even if the power is disconnected. Clearing the tare weight is performed using the F key assigned to clear the tare weight. Alternately, apply power to the indicator while holding the TARE key, or with the indicator in the OFF mode, press and hold the TARE key and press the ON/OFF key to clear the tare weight.
6.1.5. display Assign a function to the display in the general functions. Functions related to the display zfncf04: Assigns a function to the display from the functions below: 0: None 1: Zero tracking in progress 2: Alarm (Zero range setting error, over limit) 3: F key status (Read the description below.
Example 2) You would like to remotely control the relay via computer, but you don't have a usable output port. - Connect the relay to a control output terminal that is assigned to the user output. - Monitor the control output terminal, connected to a solenoid, with RS-232C/485 IOU commands. Example 3) With the AD-4410's front panel, you want to monitor a computer running a relay. - Using the display function, set the user output terminal you want to monitor.
Select positive logic or negative logic using fncf13 (logic output for upper and lower limits) 6.1.9. Hold function There are three types of hold functions which can be used for different purposes. 1. Normal hold Holds the value displayed at the time the hold command was received. 2. Peak hold Holds the maximum value reached after the hold command was received. The value will be refreshed if it increases again. 3.
Peak hold Standard state Waiting time (Busy state) (Start standby timer) Hold start command Automatic start condition Hold Refresh (Busy state) Hold Standard state Hold cancellation command Automatic cancellation condition Judgment start Averaging hold Standard state Waiting time (Busy state) (Start standby timer) Hold start command Automatic start condition Averaging (Busy state) (Averaging time) Averaging start Hold Standard state Averaging finish Hold cancellation command Automatic canc
6.2. Mode Map The indicator has several modes to perform various operations. Perform mode switching by the key operation shown below, only in the direction of the solid arrow. After setting a mode, the indicator resets automatically. Alternatively, the indicator resets when the power is disconnected. Automatic reset after setting Power ON Weighing mode Switch using the ON/OFF key See the note below.
7. Calibration 7.1. General Description In the calibration mode, the operation to relate the output voltage from a load cell to the actual weight value and other operations directly related to weighing are performed. Calibration is performed using a calibration weight. • Zero calibration: Adjusts the indicator so that the measured value will be zero when no load is applied to the load cell.
7.2. Calibration With an Actual Load (Cal5et) Calibration is performed using a calibration weight Before performing calibration for the first time, set the unit, decimal point position, minimum division and weighing capacity in the calibration-related function mode. NOTE: To avoid drift caused by changes in temperature, warm up the indicator for ten minutes or more before performing calibration with an actual load.
< > ∧ ∨ keys: Press to correct the value of the calibration weight used. CAL key : Press to check the current value (the gross weight) and press again to display the calibration weight value. ESC key : Press three times to go back to the weighing mode without performing span calibration. Step 6 Place a calibration weight on the load cell. Wait for the stabilization indicator to turn ON and press the ENTER key. - - - - - - is displayed for approximately two seconds. Step 7 Calend is displayed.
7.3. Dual range Dual range is a function that divides the weighing range into two and displays the net weight or gross weight with an appropriate scale interval, depending on the value. This function is a feature of a dual range instrument.
Gravity Acceleration Table Amsterdam Athens Auckland NZ Bangkok Birmingham Brussels Buenos Aires Calcutta Chicago Copenhagen Cyprus Djakarta Frankfurt Glasgow Havana Helsinki Kuwait Lisbon London (Greenwich) Los Angeles Madrid 9.813 9.800 9.799 9.783 9.813 9.811 9.797 9.788 9.803 9.815 9.797 9.781 9.810 9.816 9.788 9.819 9.793 9.801 9.812 9.796 9.
7.5. Digital linearization Even if zero and span points have been calibrated, weighing errors may occur between the zero point and weighing capacity. This is a corrective function designed to non-linearly correct weighing errors. - It is possible to input up to four points in addition to the zero point. - The zero point and each input point will be corrected to put them in a straight line.
Actual load setting Set digital linearization by loading/unloading masses. * Warm up the instrument for at least ten minutes to avoid the effects of temperature drift. * The input order should proceed from the smallest mass to the largest mass. Step 1 Remove the calibration switch cover on the lower left of the front panel, and press the CAL key (the switch inside). Cal is displayed, meaning the instrument can go into calibration mode.
Step 6 lnr 2 is displayed. Repeat the procedures in Step 4 and Step 5. The input steps are as follows: lnr 3 → lnr 4→lnrend Step 7 To finish inputting, proceed to Step 8. If you want to reenter some settings, press the ∧ or ∨ key to select the input. All data following the reentered data will be cleared. Step 8 Press the ON/OFF key. lnr5et is displayed, and the inputted data will be written into the FRAM. At the same time, the calibrated data is also refreshed.
7.6. Calibration-Related Functions (Calf) Step 1 Press the ON/OFF key to turn the indicator ON (weighing mode) if it is in the OFF mode. Remove the CAL key cover and press the CAL key. Cal is displayed to indicate that the indicator has entered the calibration mode. Step 2 Press the ENTER key to display Cal5et . The indicator enters the mode of calibration with an actual load. To go back to the weighing mode, press the ESC key. Step 3 Press the ∧ or ∨ key to select CalfF and press the ENTER key.
Function No. Parameter or Setting range Calf01 0 to 5 Calf02 0 to 5 Calf03 1 to 6 Calf04 1 to 999999 Calf05 0 to 100 AD-4410 Function Description Unit of the weight value 0: None 1: g Unit 2: kg 3: t 4: N 5: kN Decimal point position of the weight value 0: None 123456 1: 101 12345.6 Decimal 2 point 2: 10 1234.56 position 3: 103 123.456 4 4: 10 12.3456 5 5: 10 1.
Function No. Parameter or Setting range Function Calf06 0.0 to 5.0 Zero tracking time Calf07 0.0 to 9.9 Zero tracking band Default value Description Performs zero tracking using this setting in combination with the setting of the zero tracking band. When 0.0, zero tracking will not be performed. Unit: second in 0.1 increments Performs zero tracking using this setting in combination with the setting of the zero tracking time. When 0.0, zero tracking will not be performed.
Function No. Parameter or Setting range Function Calf08 0.0 to 9.9 Stability detection time Calf09 0 to 9 Stability detection band Default value Description Performs stability detection using this setting in combination with the setting of the stability detection band. When 0.0, stability detection will not be performed. (Stable all the time) Unit: second in 0.1 increments Performs stability detection using this setting in combination with the setting of the stability detection time.
Function No. Parameter or Setting range Function Calf13 1 to 3 Exceeding negative gross weight Calf14 1 to 2 Exceeding negative net weight Calf15 0 to 1 Clear the zero value Calf16 0 to 1 Zero setting when power is turned on Calf17 -7.00000 to 7.00000 Input voltage at zero Calf18 0.00001 to 9.99999 Input voltage at span Calf19 1 to 999999 Calibration weight value corresponding to Input voltage at span Description Default value To judge when the negative gross weight is exceeded.
Input voltage CALF18 CALF17 CALF19 0 Displayed weight 0 NOTE: Record the setting values of Calf17, 18 and 19 in the “Setting List” at the end of the manual to prepare against a failure. By changing the parameters of Calf17, 18 and 19, “zero calibration” and “span calibration” can be adjusted optionally. (Digital span accuracy approx. 1/5000: The accuracy varies depending on the load cell output accuracy and the conditions of calibration.) Except for an emergency, perform calibration with an actual load.
Calf25 0 to 999999 Calf26 9.75000 to 9.85000 Calf27 9.75000 to 9.85000 Calf28 0 to 1 Dual range border 3: 5 4: 10 5: 20 6: 50 If this is set to less than the scale interval of Range 1, the instrument will revert to single range mode. The scale interval for Range 1 is Calf03. When the absolute weighing value (gross weight or net weight) is over the set range, it will become Range 2. The weighing capacity for Range 2 is Calf04. The decimal point position is linked to Calf02.
7.7. Linearity-related functions (LnrFnc) Confirm and change linearity settings. To use this function, select “lnrf” in the same way as calibration-related functions are selected. Function No. Parameter or Setting range Function Description Default value Llnrf01 0 to 5 Number of input points Number of points where linear input was done. The linear-zero input is included as one point. Digital linearization is not performed when the set value is between 0 and 2. 0 Llnrf02 -7.00000 to 7.
7.8. Calibration Errors When an error occurs during calibration, the error number is displayed. If calibration is finished without removing the error, the setting values will be restored to the state before calibration. Calibration errors and remedies Error No. Description C err1 The display resolution (weighing capacity / minimum division) exceeds the specified value. C err2 Voltage at zero calibration exceeds in the positive direction.
7.9. Load Cell Output Adjustment Add a resistor as shown below to adjust the load cell output. Use a resistor with a high resistance value and a low temperature coefficient. SIG- "C Err 3" When exceeding in the negative direction) EXC+ EXC+ r to is es d R dd e a R e ad sis de tor d "C Err 2" (When exceeding in the positive direction) SIG+ SIG- EXC- SIG+ EXC- Fig.
8. General Functions General functions are divided into groups according to function and are indicated by the group name with the function number. NOTE: General functions determine the AD-4410 performance and all of the settings are stored in the FRAM. 8.1. Setting Procedure Step 1 While pressing and holding the ENTER key, press the F key. fnc is displayed to indicate that the indicator will enter the general function mode. Step 2 Press the ENTER key. The indicator enters the general function mode.
Step 6 Press the ESC key. The function number disappears and the indicator returns to the state of step 3. Press the ESC key to store the setting values in the FRAM and go back to the weighing mode. NOTE: The blinking decimal point indicates that the current value is not the weight value. If a value exceeding the settable range is entered, err dt is displayed and the input is canceled. 8.2. Adjusting the digital filter Adjust the digital filter using fncf05 (digital filter).
8.3. Basic Functions (fncf) Function No. Parameter range Ffncf01 000000 to 111111 Function Default value Description Each digit of the setting corresponds to a key switch. Only available in the weighing mode. 0: Does not disable the key switch function. 000000 Disable key 1: Disables the key switch function.
fncf07 1 to 3 fncf08 -999999 to 999999 fncf09 1 to 2 Ffncf10 -999999 to 999999 Ffncf11 -999999 to 999999 Ffncf12 1 to 2 Ffncf13 1 to 2 AD-4410 7: 1.4 Hz 8: 1.0 Hz 9: 0.7 Hz 10: 0.5 Hz 11: 0.33 Hz 12: 0.25 Hz 13: 0.17 Hz 14: 0.13 Hz 15: 0.10 Hz 16: 0.07 Hz 1: Normal hold Hold 2: Peak hold 3: Averaging hold The reference value for near-zero Set value of Decimal point position is linked to Calf02.
8.4. Hold Function No. Parameter range Function Description Default value Time to perform the averaging. 0.00 Units in seconds. 0.00 is not averaged. Time to wait before commencing hold or LHldf02 Start wait 0.00 averaging. time 0.00 to 9.99 Units in seconds. Condition to start the hold or averaging Condition of automatically LHldf03 automatic 0: Do not use automatic start.
8.5. Control I/O Function No.
8.6. Standard Serial (current loop) Function No. Parameter or Setting range Function Cl f01 1 to 5 Output data Cl f02 1 to 3 Data transfer mode Cl f03 1 to 2 Baud rate Cl f04 0 to 99 ID number Description 1: Displayed weight 2: Gross weight 3: Net weight 4: Tare weight 5: Gross/Net/Tare 1: Stream 2: Auto printing (Note 1) 3: Manual printing 1: 600 bps 2: 2400 bps Adds an ID number to the standard serial output. (Note 2) 0: Does not add an ID number.
8.7. RS-232C (Standard) / RS-232C (ch2) / RS-485 Function No.
9. Interface 9.1. Control I/O - Display and data output can be controlled externally using control input. - Weighing states and results can be output to external devices using control output. - User I/O can check and control sensors and switches other than the AD-4410. Sensors and switches can be controlled together with the AD-4410, eliminating the need for additional specialized equipment. 9.1.1.
9.2. Serial interface 9.2.1. Standard serial output (Current loop) AD-4410 has standard serial output (Current loop) and RS-232C (ch1) as standard equipment. Also, it is possible to change the current loop to RS-485 or RS-232C (ch2) for optional units. AD4410-03 RS-485 AD4410-04 RS-232C (ch2) * It is impossible to use the current loop when options are connected. Connection Pin No. Signal name 3 C.L. 5 C.L.
9.2.2. RS-232C (ch1) Transmission type Baud rate Data bits Parity : Start-stop synchronous, bi-directional, half duplex : 600, 1200, 2400, 4800, 9600, 19200, 38400 bps : 7 or 8 bits : 1 bit, Even or Odd (Data bits 7 bits) None (Data bits 8 bits) Start bit : 1 bit Stop bit : 1 bit Code : ASCII Terminator : CR LF, OR (CR:0Dh, LF: 0Ah) Connector : D-sub 9 pin male * Use the straight cable when connecting the AD-4410 to a PC or PLC. Connection Pin No.
9.2.3. RS-485 (AD4410-03) Optionally installed on the AD-4410. Signal form : EIA RS-485 compliant Baud rate : 600, 1200, 2400, 4800, 9600, 19200, 38400 bps Data bits : 7 or 8 bits Parity : 1 bit, Even or Odd (Data bits 7 bits) None (Data bits 8 bits) Start bit : 1 bit Stop bit : 1 bit Signal wire : Twin wires method Drop number : Up to 32 Terminator resistor : 120Ω (Can select internal connection) Character code : ASCII, JIS 8 Connector : 7 pin DIN connector Connection Pin No.
9.2.4. RS-232C (AD4410-04) (ch2) Optionally installed on the AD-4410. Transmission form : Start-stop synchronous, bi-directional, half duplex Baud rate : 600, 1200, 2400, 4800, 9600, 19200, 38400 bps Data bits : 7 or 8 bits Parity : 1 bit, Even or Odd (Data bits 7 bits) None (Data bits 8 bits) Start bit : 1 bit Stop bit : 1 bit Code : ASCII Terminator : CR LF, OR (CR:0Dh, LF: 0Ah) Connector : 7-pin DIN connector Connection Pin No.
9.2.5. Bit structure Data 7 bits Data bit Stop bit Start bit Parity bit Data 8 bits Stop bit Data bit 9.2.6. Data transfer mode Four data transfer modes are available; stream, auto printing, manual printing or jet stream. Stream mode Auto printing mode Manual printing mode Jet stream Transmits data in sync with the display update rate. If the indicator can not catch up with the update rate because of the baud rate, the transmission is paused until the next updating.
9.2.7. Data format The data format used is A&D standard format or jet stream format. A&D standard format This is the format to be used with an A&D printer or remote display and consists of two headers, data, unit and a terminator. S T , G S , + 0 Header 1 Header 2 1 2 3 . 4 5 Data (8-digit with a polarity and a decimal point) ASCII code ST US OL GS NT TR , 0 to 9 + SP (space) .
Jet stream format This is the format for jet stream mode, which has no headers, decimal points, or units to maintain high-speed output. + 1 2 3 4 5 6 CR LF Data (7 digits) Data (ASCII code) Terminator Terminator ASCII code 0 to 9 + SP (space) CR LF Hexadecimal [30 to 39] [2B] [2D] [20] [0D] [0A] Description 9.2.8 Command format 9.2.8.1 Commands to output data Display data request Outputs display data immediately after the command is received.
Response example 1) RZ,0CRLF : When it is not within the zero point 2) RZ,1CRLF : When it is within the zero point 9.2.8.2 Control commands Zero operation Performs a zero operation. Command MZ Command example MZCRLF Response example MZCRLF Zero clear The zero and tare values are cleared and the gross weight is displayed. Command CZ Command example CZCRLF Response example CZCRLF Tare Subtract tare.
Command Command example Response example DK DKCRLF DKCRLF Release key switch disabled state Re-enable key switch operation through DK commands. Command EK Command example EKCRLF Response example EKCRLF 9.2.8.3 Commands related to holds Begin hold Starts a hold. For averaging holds, either averaging standby or averaging is initiated. The response depends on what state is currently selected. Command HS Command example HSCRLF Response example 1) HSCRLF The standard state.
9.2.8.4. Commands related to near-zero detection Read near-zero setting Reads the set value for near-zero. Command RZB Command example RZBCRLF Response example RZB,+012345CRLF (Polarity, 6 digits, no decimal point) Write near-zero value Sets the near-zero value. Command WZB, setting value Command example WZB,+012345CRLF Response example WZB,+012345CRLF (Polarity, 6 digits, no decimal point) 9.2.8.5. Commands related to upper/lower limit settings Read upper limit value Reads upper limit value.
9.2.8.6. Commands related to control I/O Change user output Sets user output state with a numerical value. Returns the new user output/input states using a numerical value. Command IO Command example IO,4CRLF Response example IO,40CRLF User input User output Confirm user I/O state Returns the user output/input states using a numerical value.
10. Maintenance 10.1. Error Messages If an error message is displayed, refer to the chart below to take proper measures. Error message C5 err ad err ra err fraerr Calerr C errX err dt Cause Remedy Program checksum error Repair is required. Data can not be acquired Repair is required. from the A/D converter. Data can not be written into Repair is required. the backup memory. Perform initialization. Correct data can not be If initialization does not clear the read from the FRAM. error, repair is required.
Display Chckey Chc Cl Chcr51 Chcr52 Chc io Chc ad Chc in Chcpr9 Chc 5n C5 pr9 C5 fra Calfdt Checking item Key switches Standard serial output RS-232C RS-232C/485 (Option) Control I/O A/D (Load cell) Internal count Program version Serial number Program checksum Memory (FRAM) checksum Calibration-related functions 10.2.2. Checking the key switches With Chckey displayed, press the ENTER key to enter the key switch check mode. In the key switch check mode, six squares ( ) are displayed.
10.2.4. Checking the RS-232C While Chcr51L is displayed, each time the ENTER key is pressed, test data is transmitted using the baud rate set in general functions. When the data is received, it is displayed for two seconds. Test data S T , G S , + 0 0 0 0 0 . 0 k g CR LF 10.2.5. Checking the RS-232C / RS-485 (Option) While Chcr52L is displayed, each time the ENTER key is pressed, test data is transmitted using the baud rate set in general functions.
10.2.9. Checking the program version With Chcpr9 displayed, press the ENTER key to display the version of the current program. The example below is for program version 1.00. p001.00 10.2.10. Checking the serial number With Chc 5n displayed, press the ENTER key to display the last five digits of the serial number. The example below is when the last five digits of the serial number are 12345. 12345. The decimal point blinks 10.2.11.
10.3. Initialization Mode Initialization restores the contents of the FRAM to the default values. Three types of initialization are available as shown below. Initialization mode Display RAM initialization ini ra General functions initialization inifnc All data initialization iniall Description Initializes the contents of the RAM only. The zero and tare values will be restored to 0. Initializes the contents of the general functions stored in the FRAM. Initializes all the contents in the FRAM.
10.3.2. All data initialization Step 1 Remove the CAL key cover and press the CAL key. Cal is displayed to indicate that the indicator enters the calibration mode. Step 2 Press the ENTER key to display Cal5et . The indicator enters the mode of calibration with an actual load. To go back to the weighing mode, press the ESC key. Step 3 Press the ∧ or ∨ key to select the all data initialization mode ( iniallLL ) and press the ENTER key. Step 4 All the status LEDs blink to prompt a confirmation.
10.4. Confirming the load cell connection with a digital multi meter The load cell connection can be checked easily using a digital multimeter. Figure 14 shows points to confirm the load cell connection. When a summing box is used, the same measurement must be performed, even internally. mV Fig.
When the AD-4410 does not operate properly, write the required items in the table below and contact your local A&D dealer. User’s usage circumstances Model number, rated, Item Description measurement value etc. When using the 4-wire configuration, Load cell connection □ 4-wire configuration it is necessary to connect a jumper between EXC+ and SEN+, and method □ 6-wire configuration between EXC- and SIG-.
11. Setting List When performing maintenance, use the following list as a memorandum. When making inquiries about the product, inform your local A&D dealer of the user settings. 11.1. Basic Functions Function No. Parameter or Setting range Ffncf01 000000 to 111111 fncf02 0 to 6 fncf03 1 to 3 fncf04 0 to 13 fncf05 0 to 16 Description Disables key switch 0: Does not disable the key switch function. 1: Disables the key switch function. Assigns a function to the F key.
fncf07 1 to 3 fncf08 -999999 to 999999 fncf09 1 to 2 Ffncf10 -999999 to 999999 Ffncf11 -999999 to 999999 Ffncf12 1 to 2 Ffncf13 1 to 2 AD-4410 9: 0.7 Hz 10: 0.5 Hz 11: 0.33 Hz 12: 0.25 Hz 13: 0.17 Hz 14: 0.13 Hz 15: 0.10 Hz 16: 0.07 Hz Hold 1: Normal hold 2: Peak hold 3: Averaging hold Near-zero value The decimal point position depends on the Calf02. Weight compared with near-zero 1: Gross weight 2: Net weight Upper limit value The decimal point position depends on the Calf02.
11.2. Hold Function No. Parameter or Setting range LHldf01 0.00 to 9.99 LHldf02 0.00 to 9.99 LHldf03 0 to 2 LHldf04 0 to 1 LHldf05 0.00 to 9.99 LHldf06 0 to 999999 LHldf07 0 to 1 Description Averaging time Units in seconds. Averaging is not done for 0.00. Start wait time Units in seconds. Automatic start conditions 0: Do not use automatic start.
11.3. Control I/O Function No.
11.4. RS-232C (Standard) / RS-232C (ch2) / RS-485 Function No.
11.5. Standard Serial Output Function No. Parameter or Setting range Cl f01 1 to 5 Cl f02 1 to 3 Cl f03 1 to 2 Cl f04 0 to 99 AD-4410 Description Output data 1: Displayed weight 2: Gross weight 3: Net weight 4: Tare weight 5: Gross/Net/Tare Data transfer mode 1: Stream 2: Auto printing 3: Manual printing Baud rate 1: 600 bps 2: 2400 bps ID number 0: Does not add an ID number.
11.6. Linearity-Related Function No. Parameter or Setting range Llnrf01 0 to 5 Llnrf02 -7.00000 to 7.00000 Llnrf03 0 to 999999 Llnrf04 0.00000 to 9.99999 Llnrf05 0 to 999999 Llnrf06 0.00000 to 9.99999 Llnrf07 0 to 999999 Llnrf08 0.00000 to 9.99999 Llnrf09 0 to 999999 Llnrf10 0.00000 to 9.99999 Description Number of input points Linearity zero input is included in this. Linearity zero Units in mV/V. Linearity 1 mass value The decimal point position depends on the Calf02. Linearity 1 span Units in mV/V.
11.7. Calibration-Related Function No. Parameter or Setting range Description Default value Calf01 0 to 4 Unit of the weight value 0: None 1: g 2: kg 3: t 4: lb (USA version) 2 Calf02 0 to 5 Decimal point position of the weight value: 10n 0 Minimum division (d) of the weight value 1: 1 2: 2 Calf03 3: 5 1 to 6 4: 10 5: 20 6: 50 Weighing capacity of the weighing instrument Calf04 The decimal point position is the same as 1 to 999999 the setting of Calf02.
Function No. Parameter or Setting range Calf13 1 to 3 Calf14 1 to 2 Calf15 0 to 1 Calf16 0 to 1 Calf17 -7.00000 to 7.00000 Calf18 0.00001 to 9.99999 Calf19 1 to 999999 Calf20 0 to 1 Calf21 0 to 1 Calf22 1 to 2 Calf23 1 to 2 Calf24 1 to 6 Description To judge when the negative gross weight is exceeded. A/D negative exceeded or, 1: Gross weight < -999999 2: Gross weight < negative weighing capacity 3: Gross weight < -19 d To judge when the negative net weight is exceeded.
Calf25 0 to 999999 Calf26 9.75000 to 9.85000 Calf27 9.75000 to 9.85000 Calf28 0 to 1 Dual range border 0 Gravity acceleration in the location of calibration Units in m/s2. Gravity acceleration in the location of use Units in m/s2. Disabling averaging hold 0: Enabled 1: Disabled 9.80000 9.80000 0 12. External Dimensions 144 72 ZERO TARE Net/B/G NET GROSS ZERO STABLE GROSS NET HOLD ON/OFF ESC ENTER (6) 10 108.5 68+0.7 0 138+10 Panel cutout dimensions Unit: mm Fig.
When installing the AD-4410 to the optional stand (AD4410-11) (181) 144 10 ZERO TARE 72 Net/B/G NET GROSS ZERO STABLE GROSS NET HOLD 123 ON/OFF ESC 2- ENTER 5 48 4-6x12 80 99.6 70 116 152.2 Unit: mm Fig.
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