Waterproof Digital Platform Scale HV-15KV-WP HV-60KV-WP HV-200KV-WP HW-10KV-WP HW-60KV-WP HW-100KV-WP HW-200KV-WP WM : PD4000211A
This is a hazard alert mark. This mark informs you about the operation of the product. Note This manual is subject to change without notice at any time to improve the product. No part of this manual may be photocopied, reproduced, or translated into another language without the prior written consent of the A&D Company. Product specifications are subject to change without any obligation on the part of the manufacture.
Contents 1. Compliance........................................................................................ 3 1.1.1. Compliance with FCC rules ....................................................... 3 1.1.2. Classification of protection provided by enclosures................... 3 2. Outline and Features ......................................................................... 4 3. 3.1. Unpacking..........................................................................................
13.1. 13.2. Preparation (Setting Parameters) ................................................ 37 Operation and Performance (Examples) ..................................... 38 14. Calibration (Adjusting the Scale)...................................................... 39 14.1.1. The Gravity Acceleration Table ............................................... 40 14.2. The Complete Calibration Procedure .......................................... 41 14.2.1. Gravity Acceleration Correction.......................
1. Compliance 1.1.1. Compliance with FCC rules Please note that this equipment generates, uses and can radiate radio frequency energy. This equipment has been tested and has been found to comply with the limits of a Class A computing device pursuant to Subpart J of Part 15 of FCC rules. These rules are designed to provide reasonable protection against interference when this equipment is operated in a commercial environment.
2. Outline and Features Features These scales are designed to comply with IP-65 of IEC 529 The HV-WP series is a platform scale with 1/3000 resolution, and has a "triple weighing range" function to select the weighing range. The HW-WP series is a platform scale with 1/10000 resolution. The scales have a fluorescent display so the weighing value can be read in dim light. This type uses the AC power line as a power source.
3. Unpacking HV-WP/HW-WP Series Page 5 3.
3.1.
4. Caution 4.1. Precautions for Installing the Scale Ground the scale, so that the user will not be subjected to an electric shock. Do not handle the Main power cord with wet hands. The AC plug is not water-resistant. Install it in an area where it does not get wet. Do not install the scale where there is flammable or corrosive gas present. Do not install the scale under water. Do not pull, fold or arrange cables forcibly. Consider the following conditions to get the most from your scale.
5. Installing the Scale This procedure includes all of the steps for installing the HV-WP series and HW-WP series. Therefore, on some products, there are some unnecessary steps. Step 1 Connect the indicator unit to the pole with the accesory knobs and rubber washers. Step 2 Take the base unit and pole out, taking care that the load-cell cable is not pulled. Step 3 Put the weighing pan on the base unit. Step 4 Insert the remainder of the load cell cable into the pole.
5.1. Removing the pole Caution Remove the main power plug from the receptacle before removing the pole. When removing the loadcell cable, do not pull the loadcell cable connector forcibly and do not pull on the wires of the cable. Do not bend the cable forcibly. Avoid dust, static electricity and high humidity (or drops) because the inside of the indicator unit is very sensitive. Procedure Step 1 Remove the power plug from the receptacle. Step 2 Open the rear cover of indicator unit.
Step 8 Removing the pole base from the base unit, requires the following allen wrench. HV-15KV-WP, HV-60KV-WP, HW-10KV-WP, HW-60KV-WP 5mm Allen wrench HV-200KV-WP, HW-100KV-WP, HW-200KV-WP 6mm Allen wrench Step 9 Wind the cable through the ferrite core two times. Affix the cable to the rear cover using the cable clamp. Step 10 Connect the cable to the connnector. Close the rear cover. Step 11 Confirm the accuracy of the scale. 5. 1.
6. Names HV-WP/HW-WP Series Page 11 6.
6.1. Display and Symbols Display and Symbols Meaning Stability mark. When the current weighing value is stable, this mark is displayed, indicating a condition where the value is readable. Zero point mark. With nothing on the weighing pan and pressing the ZERO switch, this mark is displayed. The zero point is a fundamental starting point to weigh anything. Net mark. Pressing the TARE switch, this mark is displayed with net display. Preset tare mark. Storing a tare with digital input, this mark blinks.
Display and Symbols Meaning Example. Storing the unit mass of the counting mode. This is a display of zero point for the counting mode and uses 20 pieces for the registration. Example. Storing the unit mass of the counting mode. The sign "-" means "weighing value is not zero". Sample number is 10 pieces. Example. Percentage mode. This mode uses the registered 100% mass, and converts the weighing value to a percentage. The unit is % . Example. Display of the function table.
Display and Symbols Meaning An error where the weighing value is unstable due to drift, vibration or other, when turning on the scale. Check around the weighing pan. Check the connection of load cell cable. Remove anything that may be on the weighing pan. Check around weighing pan. Perform zero point calibration of the scale. Error indication. Refer to "19 Maintenance". Accumulated data count. Total mass value of the accumulated data. Comparator function, display is an upper limit.
Display and Symbols Meaning Set switch. Turns the comparator on/off. (Refer to f6 ) Counting mode, it is used to enter the mode to store the unit mass. Percentage mode, it is used to enter the mode to store the 100% mass. The full/dribble batch function, it is used as a start switch. For the preset tare and selecting a calibration mass, it is used to select a figure. Mode switch. Changing the current unit. While setting modes, this switch is used for " storing a parameter and proceeding to the next step".
7. Basic Operation 7.1. Turing the Scale on/off and Weighing Step Step Step Step Step 1 2 3 4 5 Step 6 Step 7 Step 8 Step 9 Step 10 Ground the scale using the earth terminal. Place nothing on the weighing pan. Confirm that local voltage and receptacle type adapt to your scale. The scale turns on/off using the ON/OFF switch alternately. Check the accuracy of weighing. If you calibrate the scale, perform it after turning the scale on for 30 minutes (warming up). Press the ZERO switch to display zero.
7.2. Tare (And Net Display) "Tare" is used to cancel the mass of a container, receptacle, case, bag, etc. which is put on the weighing pan to contain the item to be weighed. Caution Using a tare value reduces the weighing range. The current tare value is reset by pressing the ZERO switch or turning the scale off. (Reset value is zero.) The preset tare value must be within the minimum weighing range for the HV-WP series. 7.2.1.
7.3. Weighing Range for the HV-WP series This is the function to select a weighing range for the HV-WP series. The mass value is displayed within a selected range. There is the automatic range (f2 0) and manual range (f2 1) using the RANGE switch. Operation and Performance Function table Meaning and purpose f2 0 Automatic range The weighing range changes automatically, if the weighing value proceeds from narrow range to wide range when placing articles on the weighing pan.
7.4. Mode Switch (Changing Unit and Mode) Pressing the MODE switch, the display changes as follows. Refer to function table f3 for units. Usable units are according to the factory settings. HV-WP/HW-WP Series Page 19 7.
Explanation The status of "Inactive comparator (f6)" is that comparator function (f6 0, f6 2, f6 4, f6 6) is selected and the comparator is not used. The "active" or "Inactive" (ON/OFF) for the comparator can be selected by pressing the SET switch alternately. The following parameters are stored in the same memory. Therefore, the functions can not be used at the same time.
8. Counting Mode The counting mode is the function to convert the total mass value (total weight) of articles to a count, when each of these articles assume the same mass value. It is necessary to store a unit mass to count articles. 8.1. Storing a Unit Mass Step 1 Press the MODE switch to display the unit . Step 2 Press the SET switch to enter the mode to store a unit mass. Step 3 Press the ∧ switch to select the number of samples.
8.2. Counting the number of articles articles Step 1 Press the MODE switch to display the unit . Step 2 Store the articles unit mass. Refer to "8.1 Storing a Unit Mass" Step 3 Place the container item only on the weighing pan. Press the TARE switch. Step 5 Put articles in the container item and read the count. Step 6 Remove all things from the weighing pan. 8.
9. Percentage Mode The percent mode is the function to display a mass value in the unit of "%". Store a 100% mass value, in advance, to use this function. 9.1. Storing a 100% Mass Step 1 Press the MODE switch to display the unit %. Step 2 Press the SET switch to enter the mode that stores a 100% mass. Step 3 With nothing on the weighing pan, press the ZERO switch to display zero. Step 4 Place the 100% mass on the weighing pan gently.
9.2. Reading percentage Step 1 Press the MODE switch to display the unit %. Step 2 Store the unit mass of the article. Refer to "9.1 Storing a 100% Mass " Step 3 If a container is needed, place the tare item only on the weighing pan and press the TARE switch. Step 4 It is now possible to put something on the weighing pan and read the percentage. Step 5 Remove all things from the weighing pan. 9.
10. Accumulation Function This function counts the number of weighed items, calculates the total mass value and can display the number and accumulated mass value. Set the parameters of the "accumulation function ( f8 advance, to use this function. )" in the function table, in Set the parameters of the "print mode ( f9 )" in the function table, in advance, to use the built-in printer. Operation and Switches The display of the accumulation count has a blinking without a unit.
Function table Meaning and purpose f8 4 When the display is a stable value, the scale accumulates the data automatically. The next accumulation can be performed after the display is nearly-zero. Use Recording the number and mass of articles removed form the weighing pan. (Put the articles on the weighing pan. Press the TARE switch at each removal.) f8 5 At each finish of the full/dribble batch function, the scale accumulates the data automatically.
10.2. Operation and Performance (Examples) Example 1 Weighing each article, the scale makes the accumulation according to f8 3 . Step 1 Press the MODE switch to display . Step 2 Press the ZERO switch to reset the accumulation data. Step 3 Return to the kg mode using the MODE switch. Press the ZERO switch with nothing on the weighing pan. Step 4 Put an article on the weighing pan. Wait for the stability mark to be displayed and the value to be blinking. Remove the article and press the ZERO switch.
11. Upper/Lower Comparator Function This function compares a display value with the upper limit (HI), the lower limit (LO) and displays the result. Set the "comparator function ( f6 0 ~ f6 7 )" parameters, upper limit value (HI) and lower limit value (LO) in the function table, in advance, to use this function. Install option OP-03 or OP-04, to use the relay output of the comparator. Install option OP-03, to use the buzzer output of the comparator.
Function table f6 7 Meaning and purpose A When the display value becomes stable and not nearly-zero, the A scale compares the value. A Caution The upper limit value (HI) must be greater than the lower limit value (LO). The parameters of the upper limit value (HI) and the final value (HI) use the same memory. The parameters of the lower limit value (LO) and the zero band (LO) use the same memory.
Step 6 If either of f6 0 , f6 2 , f6 4 , f6 6 has been selected, press the SET switch to use the comparator. Step 7 Press the MODE switch to display the blinking HI. Step 8 Set the upper limit value by using the following switches. ∧ switch Selecting the number of a figure. < switch Selecting a figure. F switch Selecting the polarity (+,-). Step 9 Press the ENTER switch to store the new parameter and display the blinking LO. Step 10 Set the lower limit value by using the following switches.
11.2. Operation and Performance (Examples) Example 1 This example is set as follows: Function table f6 3 Upper limit value (HI) Lower limit value (LO) (If the current display value is not nearly-zero, the scale compares the display value with the upper limit value and the lower limit value immediately.) 7.000kg 6.500kg Case The comparison starts at turning the scale on. When the current value is less than 6.500kg, LO is displayed. When the current value is 6.500kg to 7.000kg, OK is displayed.
12. Full/Dribble Batch Function This function changes the scale to a filling machine which subdivides a bulk product ( like grain) into loads of predetermined and virtually constant mass. Set the parameters of the "comparator function ( f6 9 )", " full/dribble batch subfunction ( f10 0 ~ f10 3 )" in the function table, final value (HI), preliminary value (OK) and zero band (LO), in advance, to use this function. Install option OP-03 or OP-04, to use the relay output of the full/dribble batch function.
Caution The comparison of the full/dribble batch function is a one way sequence (not reversible). If the display value becomes less than the final value after the value reached a predetermined target value, neither HI or LO is on. The parameters of the upper limit value (HI) and the final value (HI) use the same memory. The parameters of the lower limit value (LO) and the zero band (LO) use the same memory.
12.1. Preparation (Setting Parameters) Step 1 Turn off the display. Press the ON/OFF switch while the ZERO switch is pressed and held. The function table is displayed. Step 2 Press the ENTER switch to display an item of the comparator function ( f6 ). Step 3 Select a parameter of the full/dribble batch function ( f6 9 ) with the ∧ switch. Step 4 Press the ENTER switch to store the new parameter and display an item of the full/dribble batch subfunction ( f10 ) .
Step 8 Press the MODE switch to display the blinking HI (of the final value). Step 9 Set the final value using the following switches. ∧ switch Selecting the number of a figure. < switch Selecting a figure. Step 10 Press the ENTER switch to store the new parameter and display the blinking OK (of preliminary value). Step 11 Set the preliminary value using the following switches. ∧ switch Selecting the number of a figure. < switch Selecting a figure.
13. Simple Batch Function This function compaires a display value with the final value, preliminary value and zero band for the full/dribble batch function. The result is indicated by zero band (LO indicator), full flow (HI indicator) and dribble flow (OK indicator). Even if a weighing value includes increase and decrease, this function can compare it.
Caution The parameters of the upper limit value (HI) and a final value (HI) use the same memory. The parameters of the lower limit value (LO) and the zero band (LO) use the same memory. The upper/lower comparator function, the simple batch function and the full/dribble batch function can not be used at the same time because these parameters use common memory. 13.1. Preparation (Setting Parameters) Step 1 Turn off the display. Press the ON/OFF switch while the ZERO switch is pressed and held.
Step 6 Press the MODE switch to display the blinking HI (of the final value). Step 7 Set the final value using the following switches. ∧ switch Selecting the number of a figure. < switch Selecting a figure. Step 8 Press the ENTER switch to store the new parameter and display the blinking OK (of preliminary value). Step 9 Set the preliminary value using the following switches. ∧ switch Selecting the number of a figure. < switch Selecting a figure.
14. Calibration (Adjusting the Scale) The scale is an instrument which measures the "weight" and displays its "mass" value. Calibration is the adjustment function so that the scale can weigh correctly. There are three steps to calibration. Gravity Acceleration Correction ... When a calibrated scale is moved to a distant place, the scale can correctly weigh anything by revising to a new local gravity acceleration. Refer to the "gravity acceleration table" on the next page. Calibration of the Zero Point .....
14.1.1. The 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 14. Calibration (Adjusting Scale) 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.
14.2. The Complete Calibration Procedure 14.2.1. Gravity Acceleration Corr Correction ction Step 1 Turn on the display. Open the cover of the display unit. Press and hold the CAL switch, it is in the depth of 5cm, to enter the calibration mode. Then Cal 0 is displayed. Step 2 Press the ZERO switch to enter the gravity acceleration correction mode. Step 3 Set your local gravity acceleration using the following switches. ∧ switch Selecting the number of a figure. < switch Selecting a figure.
14.2.3. Calibration of the Zero Point Step 8 Press and hold the CAL switch to enter the calibration mode after displaying normal weighing for 30 minutes. Then Cal 0 is displayed Step 9 With nothing on the weighing pan, press the ENTER switch while the stable mark is displayed. The scale stores the current condition as the zero point. Step 10 The scale displays 5pn1 for several seconds. Finishing the calibration mode at this stage, proceed to step 14. 14.2.4.
15. The Function Table The function table is the function to store and refer items that determine the performance of the scale. Each item has a parameter. The parameters are maintained even without power applied. 15.1. The Procedure for for Setting Parameters Step 1 Turn off the display. Press the ON/OFF switch while the ZERO switch is pressed and held. The function table is displayed. Step 2 Set parameters for each item using the following switches. ∧ switch Selecting the parameter of an item.
15.2. Parameter List Item Automatic display OFF Weighing range Unit Baud rate Display f1 0 f1 1 f2 0 # f2 1 f3 f3 f3 f3 0 # 1 2 3 f4 0 # f4 1 f4 2 f5 0 # f5 1 f5 2 Output mode A Meaning and purpose Turns the display OFF automatically. No automatic display OFF Automatic display OFF Selects the way of changing weighing range for HV-WP series. Automatic range Manual range using the RANGE switch. Selection of the first unit at the time when the scale turns on.
Item Display Comparator f6 5 f6 6 f6 7 f6 8 f6 9 Buzzer f7 f7 f7 f7 f7 f7 f7 f7 f7 0 # 1 2 3 4 5 6 7 8 f8 0 # f8 1 f8 2 Accumulation function f8 3 f8 4 f8 5 Meaning and purpose A When the display value becomes stable, the scale compares the display value. It does not compare on an unstable condition. When the display value becomes stable when not nearly-zero after pressing the SET switch, the scale compares the display value. It does not compare on an unstable condition.
Item Display A Meaning and purpose The details of the full/dribble batch function (f6 9) A Reaching final value and pressing the F switch, the current A f10 0 # process is finished. A Reaching final value and displaying the stability mark, the current A f10 1 process is finished automatically. A Full/Dribble batch subPressing the SET switch, the scale automatically tares and starts A func-tion the full/dribble batch process.
16. RS-232C Serial Interface Note When the RS-232C serial interface is used, be sure to set the "Address ( f11 "( 00 )". ) " to The RS-232C interface has the following two modes. Steam mode Outputs data countinuouslly and can be used for printing data. Command mode Controls the scale using commads from a computer. Set the parameters for the "Baud rate ( f4 )", " Output mode ( f5 )" and " Format ( f15 )", in the function table, in advance.
16.1. Data Format Bit Format Format 1 There are four headers for the type of data and weighing condition. Stable weighing data Unstable weighing data Stable counting data Out of range ( Over) The weighing data consists of 9 characters including decimal point and polarity. The polarity is always output. There are three units. The unit is 3 characters. In case of "out of range", numbers become all 9’s. The terminator is always output as CR LF.
Format 2 There are four headers for the type of data and weighing condition. Stable weighing data Unstable weighing data Stable counting data Out of range The weighing data consists of 7 characters including decimal point and polarity. The data consists of 7 characters in the counting mode. The polarity is always output. There are three units. The unit is 2 characters. In case of "out of range", numbers become all 9’s. The terminator is always output as CR LF.
16.2. Stream Mode The scale outputs the current display data at the time when refreshing the display. The scale does not output data while in the setting mode. Averaging of function table f13 0 Normal weighing f13 1 A person’s weight f13 1 Animal weighing 16.2.1. Refresh rate A Approximately 7 times/s while the display is unstable, A Approximately 4 times/s when the display is stable A A Approximately 4 times/s Preparation and Performance (Examples) Step 1 Turn off the display.
16.3. Command mode The command mode is the function which can perform "output data", "controlling the scale" and "setting parameters" by a command transmitted from a computer Caution 16.3.1. Allow at least 500 milliseconds between commands. Command List The following explanation uses "format 1 ( f15 0 )" Data output The current weighing data is output. Template Q Command Reply Selection of mode and unit Selects the mode and unit.
Preset tare The tare value is set and the net value is displayed. The net mark is displayed. Template PT, [parameter] Command Reply Net is displayed. Upper limit value An upper limit value is stored. Template HI, [parameter] Command Reply The upper limit value is stored. Lower limit value A lower limit value is stored. Template LO, [parameter] Command Reply The lower limit value is stored. Caution The lower limit value must be less than the upper limit value.
Final value The final value is stored. Template S0, [parameter] Command Reply The value is stored. Preliminary value The preliminary value is stored. Template S1, [parameter] Command Reply The value is stored. Zero band The zero band is stored. Template S2, [parameter] Command Reply The value is stored. HV-WP/HW-WP Series Page 53 16.
16.3.2. Example of Setting Parameters Step 1 Turn off the display. Press the ON/OFF switch while the ZERO switch is pressed and held. The function table is displayed. Step 2 Select a parameter for the "baud rate ( f4 )" using the ENTER and ∧ switches. Step 3 Select "command mode ( f5 1 )" for the "output" using the ENTER and ∧ switches. Step 4 Select "format 1 ( f15 0 )" for the "format" using the ENTER and ∧ switches. Step 5 Press the ENTER switch to store the new parameters.
17. Options 17.1. Extension cable (OP-02) This cable is used for installing the indicator away from the base unit. This loadcell cable is 5m long. Refer to " 5.1. Removing Pole" for the way to remove the pole. Caution Calibrate the scale after connecting this cable. Do not connect more than two extension cables. HV-WP/HW-WP Series Page 55 17.1.
17.2. RS-232C/ Relay output/ Buzzer (OP-03) Note When the OP-03 is used, be sure to set the "Address ( f11 ) " to "( 00 )". This option replaces the RS-232C interface, refer to "16. RS-232C Serial Interface" for specification of RS-232C. The following option cables can be used, when you do not use the relay output. Pin connections Adaptable connector Pin No.
17.2.1. Installing the OP-03 Caution Do not pull on the connected cables while opening the rear panel. Step 1 Remove the plastic panel from the option board. Step 2 Remove eight pairs of screws and O rings from the indicator unit. Open the rear panel of the unit. Step 3 Remove the standard interface board from the indicator unit. Install the option board at the same position. Step 4 Connect the cable to the J1 connector on the option board. Step 5 Connect the DIN plug to the option board.
17.3. RS-422/ RS-485 / Relay output (OP-04) Replacing the RS-232C interface with this option, the RS-422/ RS-485 interface can connect up to 16 scales and control them from a computer. The RS-422/ RS-485 interface has the following two modes. Steam mode Outputs data countinuouslly. Command mode Controls the scale using commad from a computer. Set the parameters for the "Baud rate ( f4 )", " Output mode ( f5 )" and " Format ( f15 )", in the function table, in advance.
Circuits Selection switch for the RS-422/ RS-485 interface Selects either of RS-422 or RS-485 interface using a switch on the board. 17.3.1. Installing the OP-04 Caution Do not pull on the connected cables while opening the rear panel. Step 1 Remove eight pairs of screws and O rings from the indicator unit. Open the rear panel of the unit. Step 2 Remove the standard interface board from the indicator unit. Install the option board at the same position.
An example of connection The polarities (A,B) of the host computer signal depends on the computer model. 17.3.2. Communication Format Commands consist of an address and the same command as for the RS-232C. Commands return the same command when there is no data transmitted. If the address is 23, the replay is as follows: Normal response Impossible command response Undefined command response Bit format 17.3.
17.3.3. Command List The following explanation uses "format 1 ( f15 0 )" assuming 23 as the address. Data output The current weighing data is output. Template Q Command Reply Selection of mode and unit Zero Tare Selects the mode and unit. This is the same as the Template U Command Reply The scale changes mode and unit. MODE switch. The current mass value is set to the zero point. This is the same as the ZERO switch.
Lower limit value A lower limit value is stored. Template LO, [parameter] Command Reply The lower limit value is stored. Caution The lower limit value must be less than the upper limit value. Accumulation data output The accumulated data is output. Template A Command Reply Accumulation count output The number of accumulated data is output. Template N Command Reply Reset of Accumulation data and number The data and number of accumulations become zero.
17.4. Roller Conveyor (OP-13, OP-14) OP-13 This option can be used with the following products. HV-200KV-WP, HW-100KV-WP, HW-200KV-WP OP-14 This option can be used with the following products. HV-60KV-WP, HW-60KV-WP HV-WP/HW-WP Series Page 63 17.4.
18. Specification HV-WP series Product Weighing Capacity HV-15KV-WP [kg] Min. weighing (1 digit) [g] Weighing Capacity HV-60KV-WP HV-200KV-WP 3 6 15 15 30 60 60 150 220 1 2 5 5 10 20 20 50 100 6 15 30 30 60 150 150 300 500 0.01 0.01 0.02 0.05 0.05 0.1 0.2 [lb] # Min. weighing (1 digit) [lb] # Weighing Capacity [oz] # 96 240 480 480 960 2400 2400 4800 8000 Min. weighing (1 digit) [oz] # 0.05 0.1 0.2 0.2 0.5 1 1 2 5 Weighing Capacity 0.002 0.
HW-WP series Product Weighing Capacity [kg] Min. weighing (1 digit) [g] Weighing Capacity HW-10KV-WP HW-60KV-WP HW-100KV-WP HW-200KV-WP 10 60 100 220 1 5 10 20 [lb] # 20 150 200 500 Min. weighing (1 digit) [lb] # 0.002 0.01 0.02 0.05 Weighing Capacity [oz] # 320 2400 3200 8000 Min. weighing (1 digit) [oz] # 0.05 0.2 0.5 1 [lb_oz] # 20 lb Min. weighing (1 digit) [lb_oz] # Number of samples in counting mode [units] Max. count number [units] 0.
Dimensions 18.
HV-WP/HW-WP Series Page 67 18.
19. Maintenance Refer to "4. Caution" for use. Refer to "6.1. Display and Symbols " and corresponding mode for displayed error code. Refer to "14. Calibration (Adjusting Scale)" for precision weighing. Periodically check the accuracy of weighing. Calibrate the scale, if it is moved to another location or the environment has changed. 19.1.1. Repair Do not disassemble/ assemble the scale without an authorized service engineer. It may cause an electric shock or damage to the scale, etc.
[ Blank page ] ページ 1
4.34.25 E_]Wh^_.Fa[Xjajge- Peh^_cW.aj- Peane 281.1124 G>M>K P[b[f^ed[; U92V +4, 64:2.7243 CWm; U92V +4, 64:2.7259 ^iif;00lll/WWdZZ/Ye/`f0 tqv w}xy}ww+y}xr y}us 2666- JY@WdZb[hh Ag_k[- J_bf_iWh- @>/ :6146 Q/O/>/ P[b[f^ed[; U2V +519, 374.6444 CWm; U2V +519,374.122: tqv y},-+.