98648-004-81 Sartorius Micro Analytical, Semi-micro- and Microbalances Installation and Operating Instructions
Contents Page General Views of the Balances: MC 210 S, MC 210 P and MC 410 S (-0CE) 1– General Views of the Balances MC 5 (-0CE) and SC 2 (-0CE) 1– Warranty 1– Storage and Shipping Conditions 1– Page Calibration/Adjustment and Linearization Functions 1–30 0 Data Interface 1–36 2 4 4 Below-Balance Weighing 1–37 Fastening an Antitheft Locking Device 1–37 1–38 Transporting the Balance 1– 5 Troubleshooting Guide Equipment Supplied 1– 7 Installation Instructions 1– 8 Using Verified Balances Ap
Page Application Programs Functions Common to All Programs c Key Information and Printouts or Data Transfer Data ID Code K* or NUM 3– 1 3– 3 3– 3 3– 4 3– 4 Page Interface Description Pin Assignment Chart Cabling Diagrams 4– 1 4–19 4–20 Specifications English Translation of the EC Type-Approval Certificate for MC 5-0CE 5– 1 5– 6 “EUREKA” Air Buoyancy Correction Program 3– 5 Accessories (Options) 5– 7 Differential Weighing and Backweighing Weighing Sequence Selecting the Memories Key Functions Clear
General View of the Balances: MC 210 S, MC 210 P and MC 410 S (-0CE) 1–0
1 Large draft shield cover 18 Manufacturer’s label 2 Small draft shield cover 19 Application display 3 Exterior draft shield element, semicylindrical (can be moved by hand) 20 Numeric keys 4 Interior draft shield door, semicylindrical (can be moved by motor control or by hand) 21 f function key 22 F function key 23 r and l draft shield function keys 5 Interior weighing chamber draft shield only on MC 210 S, MC 210 P (-0CE) 24 p Print key (data transfer) 6 Protective ring 26 t Tare key 7 Weighing
General View of the Balances: MC 5 (-0CE) and SC 2 (-0CE) 34 35 36 10 7 9 8 37 1–2
Weighing pan 24 p Print key (data transfer) 8 Protective disk 25 Function display for the f and F keys 9 Leveling foot 10 Level indicator 11 Display and control unit 12 AC jack 13 Menu access switch 14 Data interface port 15 Terminal for connecting an equipotential bonding conductor 16 Lug for attaching an antitheft locking device 17 Metrological ID label for verified balances approved for use as legal measuring instruments 18 Manufacturer’s label (on bottom of balance) 19 Application display 26 t Ta
Please read these installation and operating instructions carefully before you begin to operate your new balance. Warranty Do not miss out on the benefits of our full warranty. Please contact your local Sartorius office or dealer for further information. If available, complete the warranty registration card, indicating the date of installation, and return the card to your Sartorius office or dealer. Storage and Shipping Conditions Allowable storage temperature: +5°C ...
Transporting the Balance To transport the balance, lift it by the housing base using both hands. Never lift your balance by grasping the display unit or the draft shield! Transport Arrestment Before unplugging the balance from the power supply or unplugging the connecting cable, turn off the balance using the e key (31). For MC5 (-0CE) and SC 2 (-0CE): After approximately 10 seconds, the balance will be arrested, or locked, for transportation.
Note to Users of Verified Balances Approved for Use as Legal Measuring Instruments: Preparing a Verified Balance for Use as a Legal Measuring Instrument: After initially connecting the balance to AC power (or after a relatively long power outage), allow it to warm up for at least 24 hours. Linearization after Transport After transport, the linearity and calibration of your balance may be out of the permissible tolerances (see the “Specifications”).
Equipment Supplied The equipment supplied includes the components listed below: MC 210 S, MC 210 P and MC 410 S (-0CE) – Weighing cell – AC adapter – Weighing pan – Protective disk – Protective ring – Interior weighing chamber draft shield – 2 draft shield covers – Dust cover for the draft shield and the balance housing – Dust cover for the display unit MC 5 (-0CE) and SC 2 (-0CE) – Weighing cell – Draft shield – Electronic computing device – Connecting cable – Power supply – Kit of standard accessories –
Installation Instructions Ambient Conditions Before you set up your balance, choose a suitable place which meets the following requirements: – level, low-vibration weighing table or a wall console; – no direct exposure to sunlight, heaters, or similar sources of heat.
Using Verified Balances Approved as Legal Measuring Instruments in Europe (only applies to MC5-0CE) Using Verified Balances as Legal Measuring Instruments You must calibrate the balance at the place of installation before using it as a legal measuring instrument (see the section entitled “Calibration/ Adjustment” starting on page 1–31). This balance is not allowed to be used for weighing goods intended for direct sale to the public.
Getting Started MC 210 S, MC 210 P and MC 410 S (-0CE): Important Note Concerning Verified Balances Approved for Use as Legal Measuring Instruments: Provided that an official lead seal is required for the verified balance, a control seal is affixed to the balance. Unauthorized attempts to remove this seal will irreversibly damage it. If you break the seal, the validity of the verification will become void, and you must have your balance subsequently verified.
Adjusting the Exterior Draft Shield Element Turn the exterior draft shield element (3) by the riffled part on the bottom to the position you desire. Depending on your application, you can define the menu code so that the interior draft shield door (4) is operated by motor or by hand (see section starting on page 1–21). Adjusting the Swivel-Mounted Display Unit Move the swivel-mounted display unit (11) around the base of the draft shield to adjust it to the position you desire (+/– 85°).
MC 5 (-0CE) and SC 2 (-0CE): Assembling the Components § Place the components listed below on the weighing cell (35) one at a time in the order given: – Protective disk (8) – Weighing pan (7) Important Note: After placing the weighing pan on the weighing cell, press down on it gently while turning it slightly to the left and right.
Connecting the Balance to AC Power The balance is energized by a power supply/AC adapter. Make sure that the voltage rating printed on this unit is identical to your local line voltage. If the voltage specified on the label or the plug design of the power supply/AC adapter does not match the rating or standard you use, please contact your Sartorius office or dealer. Important Note: Use only original Sartorius power supplies/AC adapters.
Voltage Selection 230 V~ 115 V~ You can select the voltage if you use our portable power supply (6971172) that has a European-type plug (rounded prongs). Safety Precautions The power supply/AC adapter rated to Class 2 can be plugged into a wall outlet without taking any additional safety precautions. The pole of the output voltage is connected to the balance housing, which can be grounded for operation.
Leveling the Weighing Cell Using the Level Indicator At the point of use, level the weighing cell using the leveling feet (9) so that the air bubble is centered within the circle of the level indicator (10). To level the weighing cell using the level indicator as a guide: Extend the leveling feet (turn clockwise) to lift the weighing cell. Retract the feet (turn counterclockwise) to lower the weighing cell.
General Instructions for “Analytical Weighing” Weighing Electrostatically Charged Samples and Containers Major measuring errors can occur when electrostatically charged samples and containers are weighed. This problem particularly involves samples that have an extremely poor electrical conductivity (glass, plastic, filters) since they can discharge electrostatic – i.e., friction-induced – charges only over a relatively long period of time.
Weighing Magnetic or Magnetizable Samples It is technically impossible to avoid the use of magnetizable materials in the manufacture of balances. Ultimately, the operating principle of high-resolution balances is based on electromagnetic force compensation of the load placed on the weighing pan. When magnetic or magnetizable samples or containers (e.g., beaker with a stirrer) are weighed, interactions among the above-mentioned components of the balance may occur, distorting weight readouts.
General Instructions for Handling Samples and Containers As a general rule, the sample to be weighed should be conditioned to the temperature of the balance. This is the only way to avoid air buoyancy errors and deviations caused by convection currents at the surface of the sample. Since these effects increase proportionally to the volume and surface of the sample, make sure that the size of the tare vessel selected is in the appropriate proportion to the size of the sample to be weighed.
Operating the Balance Balance Display The display shows the following special codes for your information: OFF The balance was disconnected from AC power (power failure or outage; the balance was reconnected to AC power). O (standby) The display has been turned off by the e key (31). The balance is now in the ready-to-operate mode. b (busy) Once you have turned on the balance, the b symbol will be displayed until you press a key.
Turning the Display On and Off (Standby Mode) Press the e key (31) to turn the display on or off. Self-Test After the balance has been turned on, an automatic self-test of the balance’s electronic circuitry is performed, and the draft shield closes automatically. When a zero readout is displayed, the balance is ready for operation. Important Note Concerning Verified Balances Approved for Use as Legal Measuring Instruments in the E.U.
Opening and Closing the Draft Shield MC 210 S, MC 210 P or MC 410 S (-0CE): To load small objects, open the draft shield only as far as is absolutely necessary for your application. This reduces the amount of draft so your balance will stabilize faster than it normally does when the draft shield is wide open. You have several options for operating the interior draft shield door (4): – Semi-automatically using the l or r key (23) (max.
Press either l or r to close the draft shield automatically by motor. While closing, the interior draft shield door moves slowly. The previously adjusted aperture angle is stored. If you press either l or r once again, the draft shield door will open at a faster speed to the position you have selected. Press l or r for approx. 2 seconds to open the draft shield door automatically as far as it will go (170°).
MC 5, SC 2 (-0CE): You can operate the motorized draft shield (34) in one of the following ways: – Semiautomatically using the l or r key (23) (aperature angle approx. 100°) – Using an external foot or hand switch (see part 5, “Accessories”) – By a command from an on-line computer (see part 4, “Interface Description”) – Fully automatically, e.g., for the functions tare, calibration, print, etc.
Semi-automatic Mode with the Aperture Angle of Your Choice To define the aperture angle and the direction in which the draft shield opens, move the draft shield to the desired position manually (aperture angle 45° to 315°). Press either the l or r key (23) to have the draft shield closed by motor. The previously adjusted aperture angle and the direction are stored in the process. You can always change the aperture angle by manually adjusting the position of the draft shield.
Numeric Entry of an Aperture Angle The numeric entry of an aperture angle corresponds to a fixed position. The aperture is measured counterclockwise starting from the closed draft shield position: – Enter an aperture angle between 45° and 315° using the numeric keys (20); e.g.
Simple Weighing Place your sample on the weighing pan (7), and close the draft shield door. Read off the weight indicated on the display (28) only after the weight unit (“g”, or a different unit selected – see part 2, “Balance Operating Menu”) appears as the stability symbol. Important Note Concerning Verified Balances of Accuracy Class k To avoid measuring errors, the respective air density must be allowed for.
Weighing Range Structure SuperRange “Single Wide-Range” (identified by S in the model name MC.....S) 210 g 0.01 mg SuperRange models have an extraordinarily high resolution; i.e., the weighing range has a resolution ranging from 100,000 to a few million digits. There is one level of fine readability for the entire weighing range (for example: 0.01 mg). PolyRange “Multi-Interval” (identified by P in the model name MC.....P) 210 g 110 g 60 g 0.05 mg - 0.00 mg - 0.02 mg 0.
Weighing in the IQ-Mode* (Load-Dependent Readability) In the IQ-mode, weighing is done with a loaddependent readability of, e.g., 0.01% (for different settings, see part 2, “Balance Operating Menu”) throughout the entire weighing range of the balance. Oftentimes, a display accuracy of 10 mg is sufficient for a load of approx. 110 g. In this case, it makes sense to select weighing range R 1 with an accuracy of 0.01% by pressing the w key (29).
Mass Unit Conversion by Toggling You can have the weight displayed in milligrams or grams. To select the weight units one after the other, press the w key (29) each time. In addition to milligrams and grams, the standard balances give you a wide variety of other menudefinable international weight unit options. For more information, refer to part 2, “Balance Operating Menu.
Calibration/Adjustment and Linearization Functions During calibration, the span* of your balance is adjusted to changes in ambient conditions. Relinearize your balance each time you set it up in a different area or recalibrate (re-adjust) it when the ambient conditions change (for example, temperature or barometric pressure). Even if these conditions are constant, the balance should be calibrated once a day.
The balance offers you various calibration and linearization functions. You can interrupt any calibration or linearization procedure by pressing the c key (32). In the fully automatic mode, the draft shield closes after the f or the t key has been pressed.
Internal Calibration Using the Tare Key: Calibrate the balance using the tare key if an application program (such as the tare memory) is assigned to the f key by menu code in the balance operating menu (see parts 2 and 3). Press the tare key (26) for at least 2 seconds until “C.I.” and “CAL” are displayed (next to the f key). Unload the pan and tare (if necessary, close the draft shield). When the balance displays a zero readout, press the f key (21). “C” will now be displayed.
For “external calibration,” press the F key (22) until “C.E.” is displayed. “C.E.” stands for “external calibration.” Unload the weighing pan (7) and tare (close the draft shield). Press the f key (21) when a zero readout is displayed. Afterwards, the calibration weight readout will be in grams. If external interference affects the calibration procedure, you may obtain a brief display of the error message “Err 02.” In this case, tare and then press the f key again when a zero readout appears.
Calibration Test The calibration test is carried out with internal weights as follows: – MC 210 S and MC 210 P (-0CE) with approx. 170 g – MC 410 S (-0CE) with approx. 300 g – MC 5 (-0CE) with approx. 5g – SC 2 (-0CE) with approx. 2g Press the tare key (26) for at least 2 seconds until “C.I.” and “CAL” are displayed (next to the f key). Select the calibration test by pressing the F key (22) twice until “C.t.” is displayed. Unload the balance and tare (close the draft shield). “C.t.
Internal Linearization Press the t key (26) for at least 2 seconds until “C.I.” and “CAL” are displayed (next to the f key). Select “internal linearization” by pressing the F key (22) several times until “L.I.” is displayed. Unload the balance and tare (close the draft shield). “L.1.” stands for “internal linearization.” When a zero readout is displayed, press the f key (21). “C” will now be indicated.
Data Interface If you wish to record weight data using a Sartorius Data Printer, plug the printer connector into the interface port (14) of the balance. You do not need to adjust any settings. Important Note for Verified Balances Approved for Use as Legal Measuring Instruments: When using the balance as a legal measuring instrument, you may connect to it only auxiliary devices that are legally permitted.
Below-Balance Weighing A port with a below-balance weighing hanger is available on the bottom of the balance. To hook a sample on the hanger, open the below-balance port by removing the two screws from the bottom of the balance and detaching the cover plate and gasket. Now you can attach a sample using a suspension wire, for example. You also have to install a shield to protect against drafts.
Troubleshooting Guide Problem... Causes...
Problem... Causes...
Care and Maintenance Servicing Regular servicing by a Sartorius service technician will extend the service life of your balance. Sartorius can offer you service contracts with your choice of regular maintenance intervals ranging from 1 month to 2 years. Cleaning the Balance Housing and the Draft Shield Before cleaning the balance, unplug the power supply from the wall outlet. Please do not use any aggressive cleaning agents (solvents or similar agents).
Safety Precautions If there is any indication that safe operation of the balance with the power supply/AC adapter is no longer warranted, turn off the power and unplug the equipment from AC power immediately. Lock the equipment in a secure place to ensure that it cannot be used for the time being.
Balance Operating Menu The Sartorius MC 1 Balance can be adjusted to meet your special requirements; e.g., to weigh in various units of measure, adapt to unfavorable conditions and process weight data for a variety of applications. In the operating menu, you can define how your balance will adapt to ambient conditions, and also how it will work to meet your needs. The factory-set menu codes are identified by an “*.” You can select the functions not identified by an “*” by setting the respective menu code.
Changing a Menu Code Setting To select specific functions, you will need to set the respective menu code. There are three steps to changing a code: – Accessing the menu – Setting a code – Confirming and storing this code For setting menu codes, the keys have special functions.
– Press the f key to change the left-hand number to “3” – Press p to move to the middle number – Now press the p key to move to the right-hand number (When you move to the right-hand number, the previously set numeric code will be indicated). – Press the f key to change the right-hand number to “4” Confirm the Code Setting – You must press the t key in order to confirm the code you have just set. This is indicated by the “o” after the code.
Please do not forget to relock the balance operating menu. The “-L-” indicates that it is currently locked: To use the locking function, make sure code 8 1 2 is set in the balance operating menu. If code 8 1 1 is set, the menu access switch will not lock.
Balance Operating Parameters Adapting the Balance to Ambient Conditions To adapt your balance to ambient conditions, you may need to change the response time (see the “Specifications”). Very stable conditions Stable conditions Unstable conditions Very unstable conditions Code 1 1 1 1 1 1 1 1 1 2* 3 4 Standard Weighing Mode – Manual Filling Mode You can optimally adapt your balance to meet either of these requirements.
Stability Symbol Delay This setting allows your balance to compensate for individual interfering factors which slowly subside, such as turbulent air currents generated within the weighing chamber.
Weighing in Three Ranges on Standard Balances The toggle key w, lets you switch back and forth between two weighing ranges, R1 and R2. If the menu code is set for three ranges, press the “w “ key each time to toggle to a different range.
Overview of the Weight Units Symbol Grams Grams Kilograms Carats Pounds Ounces Troy ounces Hong Kong taels Singapore taels Taiwanese taels Grains Pennyweights Milligrams Parts/pound Chinese taels Mommes Austrian carats Tola Baht Mesghal o g o ct lb oz ozt tl tl tl gr dwt mg o tl m o t b m Code 1st range 1 7 1 1 7 2* 1 7 3 1 7 4 1 7 5 1 7 6 1 7 7 1 7 8 1 7 9 1 7 10 1 7 11 1 7 12 1 7 13* 1 7 14 1 7 15 1 7 16 1 7 17 1 7 18 1 7 19 1 7 20 2nd range 3 1 1 3 1 2* 3 1 3 3 1 4 3 1 5 3 1 6 3 1 7 3 1 8 3 1 9 3 1 10
Some unit symbols printed on hard copy or output on a computer screen will differ from the way they are shown on the balance display: This applies to code numbers ending with 3 = kg 8 = tlh 9 = tls 10 = tlt 11 = GN 14 = /lb 15 = tlc 16 = mom 17 = K 18 = tol 19 = bat 20 = MS 2–9
Weighing in Two Ranges on Verified Balances Approved for Use as Legal Measuring Instruments The toggle key, w, lets you switch back and forth between two weighing ranges, provided you are using the factory-set menu code.
Display Modes for Standard Balances You can select the display mode that best meets your individual requirements. Last Numeral Blanked When the Load Changes As the load on your balance changes, the display resolution is reduced by a factor of 10 so that you will obtain a faster and more stable readout. Once the load has stabilized, the readout is shown again with the full display accuracy, which means the last numeral is displayed.
PolyRange Function (application for single-range balances) The PolyRange function divides a single weighing range into as many as 4 ranges, each with a different readability. In the various ranges, the readability will adjust so that the last numeral of a weight readout is displayed with a resolution of 1, 2, 5 or 10 digits (10 digits = only the next to the last numeral of the readout will change; the last numeral is blanked).
Display Modes for Verified Balances Approved for Use as Legal Measuring Instruments You can select the display mode that best meets your individual requirements. Last Numeral Blanked When the Load Changes As the load on your balance changes, the display resolution is reduced by a factor of 10 so that you will obtain a faster and more stable readout. In the process, the last numeral is blanked until the load stabilizes.
Calibration Functions on Standard Balances Select the appropriate menu code to define the access status for each of the calibration functions, which are activated by holding down the t key for a few seconds. If the menu access switch is unlocked (“accessible” status indicated by -C- after you have accessed the balance operating menu), the “external calibration” function will be accessible even though you have set the menu code 1 9 2 for “access denied.
Multiple Calibration Mode The calibration value is calculated from the average of the individual calibration procedures. You can use the “multiple calibration mode” for both internal and external calibration. The number of calibration procedures is indicated in the 3rd place of the application display field (e.g., “C.I.3”). Important Note: If “Err 04” is briefly displayed, the calibration values deviate too much from one another.
Calibration Functions on Verified Balances Approved for Use as Legal Measuring Instruments Select the appropriate menu code to define the access status for each of the following calibration functions, which are activated by holding down the t key for a few seconds: – External calibration – Internal calibration – Calibration – Internal linearization – Air density determination C.E. C.I. C.t. L.I. A.d.
Self-Calibration “isoCAL” and Linearization Off (restricted temperature range) Self-calibration “isoCAL” on Self-calibration “isoCAL” and linearization on Code 1 15 1 15 1 15 11) 3* 4 1 ) = With the appropriate modifications, your local Sartorius authorized service technician can make code 1 15 1 accessible. Afterwards, you may use the balance only in the legally restricted temperature range from +15 °C to +25 °C.
Utilities for Printouts or Data Transfer The balance operating menu lets you define the various parameters for data output. For information on the data formats and for interfacing a computer or a different peripheral device, see part 4, “Interface Description.
Data Output at Defined Intervals You can reduce the volume of data in the “auto print” mode by defining the interval at which data will be output automatically. This auto print interval is based on the number of times the display is updated.
Data ID Codes To help you identify weights, piece counts, percentages, etc., a code letter is printed or displayed in front of these values. For example, an “N” printed or displayed before a weight value identifies it as a net weight. If you set the code for “without data ID code,” only net weights, results in percent, and counting results will be output. The ID code increases the data output format from 16 to 22 characters for each weight readout.
Additional Functions Menu Access Function You can define the function of the menu access switch by setting the code for the balance operating menu to “accessible.” In this setting, “-C-” will be displayed on your balance whenever you access the menu.
Blocking the Numeric Keys You can block the numeric keys by setting the appropriate menu code. Numeric keys Blocked Accessible Code 2 5 2 5 1* 2 Important Note: A control command can be input via the balance interface to block the function and numeric keys (except for e). For more information, see part 4. Power-On Mode Depending on the operating mode – line current, battery operation or continuous operation – you can change the power-on mode of your balance.
Fully Automatic Draft Shield Function You can define the fully automatic draft shield function to meet the most diverse requirements. After you have pressed a function key (or after a control command has been received – see part 4, “Interface Description”), the draft shield will close automatically and the balance will then perform the particular function activated by the key. If code 8 8 2 or 8 8 3 is set, the draft shield will open once the function selected has been performed.
Automatic draft shield function Off Close draft shield – perform function – open draft shield Close draft shield – perform function with stability symbol delay – open draft shield Close draft shield – perform function Close draft shield – perform function with stability symbol delay Code 8 8 8 8 1 2 8 8 8 3 4* 5 8 8 8 Display Accuracy with the Draft Shield Automatically Opened or Manually Adjusted You can define the display accuracy for the automatically opened or manually adjusted draft shield by cha
ISO/GLP-compliant Printout or Record Application: Use of the balance in quality assurance systems and in areas subject to compliance with ISO, GLP, GMP and EN, etc. The balance can record all completed calibration/adjustment operations and output data in compliance with the requirements of Good Laboratory Practice (GLP) and ISO.
Printout/Record for Calibration and Linearization Functions (menu code 8 10 2) A printout or record is generated only at the end of the following functions: – all calibration operations – all linearization operations – air density determination (see part 3, “Application Programs”) The printout of the record can have the following lines: -------------------MC1 - Sartorius Model MC5 S/N 030800046 Id 4-32-1 -------------------Date : 30-Jul-95 Start: 10:05:30 Cal. : Test Diff.:- 0.000013 g Cal. : Intern Stat.
Data Printout/Record (menu code 8 10 3) To have a data record printed out, perform the following: – Press p to output the printout heading and the first value (after you have turned on the balance or cleared a function by pressing c) – Press p to output additional data – To end printout generation and recording of data, press the c key (generation of an ISO/GLP-compliant printout or record is also ended when a calibration or linearization operation is started) During data printout, the print symbol p appear
Data Printout/Record for Application Programs (menu code 8 10 3) For application programs, the reference data (parameters) can be included in the printout/record. Automatic output of the reference data (parameters) Off Reference %/qty. and reference weight Reference weight only Code 7 1 7 1 7 1 1* 2 3 You can also add the reference data to the printout/record later by pressing i (information function), p and then either the f or F key.
The printout of the data record can have the following lines: --------------------MC1 - Sartorius : Balance family and manufacturer Model MC5 : Balance model S/N 030800046 : Serial no. of the balance Id 4-32-1 : ID no. (e.g., for identifying a workstation/operator) --------------------Date : 30-Jul-95 : Current date Start: 10:05:30 : Time at which the application started Ser. : : Field for entering the project number Lim + 1.
Setting the ID No./Date/Time – Turn the balance off – Turn it back on – Briefly press w when all segments are displayed – Toggle among the identification number “1d,” the date “dAt” and the time “t1N” using the f key identified in the display by “^” “ID No. for the ISO/GLP-compliant Printout or Record” Enter the ID number with 8 places maximum using digits 0 through 9 and the “–” symbol. Zeros in front of the decimal point will not be output. The decimal points are output as “–” via the data interface.
“Date” – Separate the day, month and year by pressing the “.” key, e.g., 10.09.93 – Press F identified in the display by “STO” to confirm the setting “Time” – Separate the hours, minutes and seconds by pressing the “.” key, e.g., 19.05.
Application Programs In addition to the functions implemented strictly for weighing, Sartorius MC Balances offer you a variety of application programs.
You can also use these programs in combination. How? You’ll discover the ins and outs in the examples described on the next pages. To select an application program or a specific function, set the appropriate code in the menu. Part 2 describes in detail how to set menu codes. Additional settings for running the particular program and displaying or printing the data on hard copy are listed in a table of codes. For your convenience, we’ve indicated all factory-set codes with an “*.
Functions Common to All Programs The f, F and w keys are assigned different functions by the individual programs. The functions assigned to the f and F keys are always identified on the display next to each key. c Key c clears the function of a program you are using and resets the program.
Information and Printouts or Data Transfer The info key i has two functions: – one brief press: – one long press: displays information and prints/transfers stored data; selects the reference percentage or reference sample quantity for weighing in percent, diameter determination or counting; clears the memory in the backweighing mode (for more information, see the descriptions of these programs) Briefly press the i key to select the information function: an “i” will appear on the display.
“EUREKA” Air Buoyancy Correction Program “EUREKA” Air Buoyancy Correction Program Code 2 1 8 Symbol displayed: +/– Key identified by: – STO - F when the air density is 1.2 kg/m3 – STO ● - F when the air density is different from 1.2 kg/m3 * Because of air buoyancy, samples or objects with the same mass but different densities have different weights.
The following diagram shows the required corrections of mass values ∆m for a few selected density values ρW. The incorrect values result from the effects of air buoyancy. The corrections depend on the weights displayed on the balance. Correction of the mass ∆m (milligrams) g ρw = 0.8 —– cm3 g ρw = 1.4 —– cm3 g ρw = 2.0 —– cm3 Density of the object to be weighed Add the mass error to the weight displayed on the balance g ρw = 1.0 —– cm3 g ρw = 4.0 —– cm3 g —– cm3 g ρw = 22.
Changing the Density of a Sample Enter the density of a sample using the numeric keys and then confirm this value by pressing the F key identified by “STO.” Afterwards, the density that you entered will be shown in the application display. This density is used to calculate the absolute mass of the sample on the balance. The density must be entered in grams per cubic centimeter (g/cm3). A density may not be greater than 22.5 g/cm3 or less than 0.1 g/cm3.
Practical Example: Air Buoyancy Correction in the Manufacture of an Alloy Menu codes used in the example: Function Air buoyancy correction Automatic output of the air density and density of the sample With data ID code Code 2 1 8 As an alternative, you can select this code: 7 1 2 7 2 2 Data output – manual mode 7 1 1* Application: Manufacture of alloys according to stoichiometric proportions; for example, superconductor “Nb3Ge” (molecular weight: niobium 41, germanium 64) Step/Key ID/Key Readout Plac
Air Density Determination For highly precise analyses, the balance offers you a function with which fluctuations in the air density can be determined. ! The air density at the place you set up your balance can be determined within the range of 1.0 kg/m3 and 1.4 kg/m3. For determining the air density, use the special weight set which is available as an accessory (see also part 5, “Accessories”). This weight set consists of one steel and one aluminum weight.
The air density is calculated according to the following formulas: Formula 1: ρL = Air density in kg/m3 ρL = ma * WS – mS * Wa ρS = Density of steel in kg/m3 ––––––––––––––––––– mS = Mass of steel –––––––– – ––––––––– WS = Measured value of steel ma * WS mS * Wa ρa ρs ρA = Density of aluminum in kg/m3 mA = Mass of aluminum WA = Measured value of aluminum Formula 2: 1.2 1 – –––––– 8000 mS = MS * –––––––––– 1– Formula 3: 1.2 MS = Conventional mass of steel ρS mS = Mass of steel –––– 1.
Activating the Air Density Determination Function Hold down the tare key for more than 2 seconds until “C.I.” and “CAL” are displayed next to the f key. To activate the air density determination function, press F, identified by “v,” several times until “A.d.” is displayed. “A.d.” stands for “air density.” Unload the weighing pan and tare the balance. Starting Air Density Determination To start air density determination, press the f key when the display shows a zero readout.
Using the Weight Set for Air Density Determination – Steel Weight – Use the numeric keys to enter the exact mass value specified for the certified steel weight (e.g. 4.999990) and store this value by pressing the f key identified in the display by “STO.” If you press f, identified by “STO,” without making a numeric entry, the display changes to the density readout. Now you can change it for a special steel weight. Enter the mass value and press f to define this density.
– Aluminium Weight – Use the numeric keys to enter the exact mass value specified for the certified aluminum weight (e.g., 5.018072), and store this value by pressing the f key identified in the display by “STO.” If you press f, identified by “STO,” without making a numeric entry, the display changes to the density readout. Now you can change it for a special aluminum weight. Enter the mass value and press f to define this density. Center the aluminum weight on the weighing pan and close the draft shield.
Differential Weighing and Backweighing Differential Weighing and Backweighing Code 2 1 6 Symbol displayed: % S The purpose of this application is to weigh a certain sample in original condition and then after treatment, such as drying, to determine the difference between the two weights and the remaining sample quantity. This is done either in percent or in a weight unit. For each sample, the net weights are compared with each other, since the tare weights are stored first and later subtracted.
Weighing Sequence Individual or Combined Weighing Mode Individual Weighing Mode 1 2 In the individual weighing mode, the weights are stored in the following sequence: – Tare weighing – weighing-in – backweighing – If necessary, selection of an available memory location – Tare weighing – weighing-in – backweighing... The data of a sample in a memory location are overwritten until a new memory location is selected.
After each weighing-in operation has been completed, the next memory location is automatically selected. To proceed from weighing-in to backweighing, you must select the corresponding memory location ID by entering the appropriate number and pressing the F key.
Selecting the Memories Use the numeric keys to enter any memory location ID number up to “50.” Press the F key to have your entry accepted and shown in the application display (in the upper, right-hand corner). At the same time, the weight readout will reappear. Number of Sample Data Stored in a Memory Location One memory location can store the following data for a sample: – Tare value identified by tAr – Net initial sample weight identified by NEt – Net sample residue (backweighed qty.
Key Functions Function: Key(s): Select memory location ID Numeric entry + F Store tare value ● Store initial sample weight STO - F Store residue (backweighed sample) RE S - F -F Toggle between backweighing/standard w weighing modes in the individual weighing mode Toggling after backweighing between two calculated values and the “weighing mode” w Proceed from weighing-in to backweighing in the combined weighing mode Numeric entry (memory location ID no.
Procedures for the Individual Weighing Mode Tare Weighing Symbol displayed: Net Key identified by: ● - F Press the F key identified on the display by “●” to accept and store a weight as the tare value. The tare weight will be stored only if the balance has stabilized. At this point, the balance display is zeroed. After tare weighing, the net weight of a sample is determined. The ID code of F in the display changes from “●” to “STO.” Afterwards, weighing can be done starting from “zero.
The calculated value is locked into the display once the sample residue has been stored. To “unlock” this readout, press RE S v - F or select a different memory location using the numeric keys and F. Afterwards, you can proceed with the next tare weighing. A stored value of a backweighed sample can be overwritten with a current value anytime after the corresponding memory location has been selected. To do this, press c. A backweighing operation is done in reference to the original sample weight (= 100%).
Practical Example: Residue Determination of Samples in Containers Menu code settings used in the example: Function Differential weighing and backweighing Consec. indiv. weighing Automatic data output With data ID code 2 decimal places for the results in percent With tare weighing 1st calculated value: residue in wt. unit 2nd calculated value: residue in percent Record/printout with net initial sample weight Record/printout with residue in wt.
Step/Key ID/Key Readout Enter memory location/ container ID; e.g., 7, and press F to confirm Data Output 7 Zero the balance using t 0.000 mg Place container on pan; store weight using ● - F + 376.307 mg 0.000 mg Add prepared sample to container; store weight using STO - F +1095.335 mg Net Net +1435.642 mg Treat sample (e.g.
Procedures for the Combined Weighing Mode Tare Weighing Symbol displayed: Net Key identified by: ● - F Press F identified by “●” to accept and store a weight as the tare value. The tare weight will be stored only if the balance has stabilized. At this point, the balance display is zeroed. After tare weighing, the net weight of a sample is determined. The ID code of F in the display changes from “●” to “STO.” Afterwards, weighing can be done starting from “zero.
Backweighing Key identified by: RE S - F Key identification when a value is stored: RE S v - F The stable backweighed sample, the residue, is stored when you press F identified in the display by “RE S.” By setting the appropriate codes in the balance operating menu, you can select the display modes for two calculated values. Use the w key to toggle between these two values.
Practical Example: Dry Weight Determination with Tare Weighing Menu code settings used in the example: Function Differential weighing and backweighing Combined weighing mode Automatic data output With data ID code 2 decimal places for the results in percent With tare weighing 1st calculated value: residue in percent 2nd calculated value: residue in wt. unit Record/printout with net initial sample weight Record/printout with residue in wt.
Step/Key ID/Key Readout Enter memory location/contianer ID, e.g., 10 and store using F Zero the balance using t Data Output 10 0.000 mg Place container on pan; store weight using ● – F + 355.916 mg 0.000 mg Add sample to container; store weight using STO – F + 780.352 mg +1136.268 mg Net Net 11 Remove container with sample 0.000 mg Load next container; store weight using ● - F + 375.235 mg 0.000 mg Add sample to container store weight using STO - F + 889.715 mg +1264.
The data ID codes Num 10 Date 9-Jul-95 Time 10:34:54 Net + 780.352 mg Res + 578.780 mg Res + 74.
Practical Example: Measuring the Coating Mass without Tare Weighing Menu code settings used in the example: Function Differential weighing and backweighing Combined weighing mode Without tara weighing Automatic data output With data ID code 2 decimal places for the results in percent 1st calculated value: residue in wt. unit Record/printout with net initial sample weight Record/printout with residue in wt. unit Record/printout with difference in wt.
Step/Key ID/Key Readout Enter memory location ID no., e. g., 10 and store using ● - F Data Output 10 Zero the balance using t 0.000 mg Place substrate on pan and store using STO - F +1221.284 mg +1221.284 mg 11 Remove substrate 0.000 mg Place next substrate on pan and +1232.265 mg store using STO - F +1232.
Toggling between Two Calculated Values after Backweighing and “Standard Weighing” After backweighing, you can press the w key to toggle between two calculated values and the “standard weighing mode.” Once you have set the desired menu codes, the following calculated values can be displayed: Readout of the 1st Calculated Value Calcuated value Residue in selected wt. unit Residue in percent Difference in selected wt.
Important Note for Verified Balances Approved for Use as Legal Measuring Instruments: You may not use the calculated value when the balance is being used as a legal measuring instrument. The display symbol “R2” flashes to identify nonverified weights (not legal for trade). De-activating the Differential Weighing and Backweighing Program during a Weighing Procedure (“Standard Weighing Mode”) To turn off the differential weighing and backweighing program function, press w.
Record Configuration Depending on the particular menu code setting selected, data are released or blocked for a printout or on-screen output.
Differential Weighing and Backweighing with Additional Requirements Display Parameter for Readouts in Percent One of the following display parameters can be set for readouts in percent: The readout in percent is displayed Without decimal places With one decimal place With two decimal places With three decimal places Code For MC 210 S, MC 210 P, MC 410 S (-0CE) For MC 5 (-0CE), SC 2 (-0CE) and MC 21 S 3 3 3 3 3 3 3 3 6 6 6 6 1 2 3* 4 5 5 5 5 1 2* 3 4 Use in Combination with Other Programs The diff
Density 1) Density Code 2 1 7 Symbol displayed: ◆ Key identified by: STO - F You can determine the density of solid, liquid and powdery samples according to one of two methods: – Buoyancy method – Specific gravity bottle method The Achimedean principle is applied to determine the volume of a particular sample; this volume is necessary for calculating the density.
Use in Combination with Other Programs You can use a density program in combination with other application programs assigned to the f key. This means you will have all functions of the combined programs available in addition.
You have the following input options: 1) You can directly enter the density of a liquid. In this case, you will not be prompted to enter a temperature (1st function). Enter density using the numeric keys; press F to store. 2) You can enter the density of a liquid at 20°C and the volume expansion coefficient. During density determination, you will then be prompted to enter the temperature (2nd function) (see example below).
Formulas Used to Determine the Density Method Buoyancy: where: Specific gravity bottle: where: Rho = Rhofl Wa Wfl Corr = = = = Wa · (Rhofl – LA) + LA (Wa – Wfl) · Corr LA density of the liquid causing buoyancy weight of the sample in air weight of the sample in liquid correction for buoyancy produced by the immersed wire = 0.99983 = density of air = 0.
Practical Example: Buoyancy Method Liquid: Temperature: Balance used: Water 20°C MC 210 P Menu code settings used in the example: Function Density Method: buoyancy Automatic output of all calculated values With data ID code Code 2 1 7 2 6 1* As an alternative, you can select this code: 7 1 2 7 2 2 Automatic output of the density 7 1 3 Auxiliary equipment: Sartorius YDK 01 Density Determination Kit Sartorius YDP 03-0CE Data Printer Application: Determination of the density of samples of a solid P
Step/Key ID/Key Readout Data Output/Printout To start program, press c to clear functions + xxxxxx g Enter sample ID number 3.0590: 3.0590 p + 3.0590 g + xx.xxxxx g 0.00000 g Access program: STO - F + 20.0°C Confirm temperature of 20°C: STO - F + 0.00000 g Place sample on upper metal pan and store weight: STO - F + 15.03908 g Immerse sample in sample holder in the water and store weight: STO - F + 13.20269 g Tare with the sample holder immersed: t 3.
Practical Example: Density Determination Using a Specific Gravity Bottle Reference liquid: Temperature: Balance used: Water 20°C MC 210 P Menu code settings used in the example: Function Density Tare memory Selective c: f/F Method: Spec. gravity bottle Automatic output of all calculated values With data ID code Code 2 1 7 2 2 2 2 4 3 2 6 2 7 1 2 7 2 2 As an alternative, you can select this code: Automatic output of the density (sp.
Step/Key ID/Key Readout Confirm temperature of 20°C: STO - F Data Output/Printout -L- 0.00000 g Place spec. grav. bottle containing ref. liquid on pan; press STO - F to store weight Empty bottle; place empty bottle on pan: TAR - f -L- + 49.62777 g -A- 0.00000 g Fill bottle with sample; place on pan: - F + 53.39006 g Clear tare memory: 0, f + 53.59956 g Net N1 + 0.20950 g Temp Rhofl Wa Wfl Wr Vol Rho + 20.0 ’C + 0.998 g / + 53.39006 g + 49.62777 g + 64.01801 g + 39.107 ccm + 1.
Diameter Determination1) Diameter Determination Code 2 1 7 Symbol displayed: ◆ Key identified by: STO - F The diameter determination program offers an accurate solution to the problem of determining the diameter of wires and metal filaments. To do this, you only need to enter the density of the object to be weighed in the parameter mode and the length of the object, using the numeric keys and F. The factory-set density is the density of steel (8 g/cm3).
Practical Example: Diameter Determination Menu code settings used in the example: Function Diameter determination Automatic output of length and density With data ID code Code 2 1 7 7 1 2 7 2 2 As an alternative, you can select this code: Data output – manual mode 7 1 1* Application: Determination of the diameter of wires and metal filaments (e.g., for tungsten or molybdenum) Step/Key ID/Key Readout Activate the parameter mode by pressing i >2 seconds Data Output rHo 8.
Tare Memory Tara Memory Code 2 2 2 Symbol displayed when a value is stored: Net Key identified by: TAR - f Press the f key identified by “TAR” to accept and store a weight on the pan or a numeric entry as a tare weight (this procedure is indicated by “Net” on the display). The balance is now tared automatically so you can weigh again starting with a zero readout.
Practical Example: Display/Print Tare – Net – Gross Weights Menu code settings used in the example: Function Tare memory Automatic output of all parameters With data ID code Print tare memory Code 2 2 2 7 1 2 7 2 2 7 3 2 As alternatives, you can select these codes: Automatic data output of the main parameter 7 1 3* Print net weight 7 3 1* Application: Obtaining printouts of tare, net and gross weights or outputting these data to a computer – with storage of a weight actually on the pan – with storage of
Practical Example: Net Total Menu code settings used in the example: Function Tare memory Automatic data output With data ID code Printout of individual components/tare weights Code 2 2 2 7 1 2 7 2 2 7 3 1* As an alternative, you can select this code: Printout of net total weight/ total tare weight 7 3 2 Application: Weighing-in several components with additive storage, automatic taring and output of the component weight Step/Key ID/Key Place container on pan c, t Readout 122.650 mg 0.
Weighing in Percent Weighing in Percent Code 2 1 5 Symbol displayed: % Key identified by: STO REF - F This application program enables you to obtain weight readouts in percent which are based on a reference weight “Wxx%.
Practical Example: Determination of the Residue in Percent Menu code settings used in the example: Function Weighing in percent Ref. % and ref. weight With data ID code Code 2 1 5 7 1 2 7 2 2 As an alternative, you can select this code: Reference weight only 7 1 3 Application: Quick determination of the dry weight of a sample Step/Key ID/Key Readout Place container on pan + 122.650 mg c, t Data Output 0.000 mg Add prepared sample to the container STO REF - F + 485.576 mg + 100.
Weighing in Percent with Additional Requirements Changing the Reference Percentage The reference percentage setting is shown on the application display above the unit symbol after you have pressed c.
Display Parameter for Readouts in Percent If the weight stored is too light to be displayed according to display parameter set, the number of decimal places is automatically decreased.
Over/Under Checkweighing 1) This program is used to check whether products are within a specific tolerance range, to sort and classify items, and to fill and batch products. Symbols are displayed above the bar graph as visual aids for this type of program: the equal sign indicates the target weight; the minus sign, the underweight limit; and the plus sign, the overweight limit. Within the tolerance range, the response sensitivity of the bar graph is increased. You can define the tolerance limits between 0.
Practical Example: Checking Net Weights Menu code settings used in the example: Function Checking net weights Control by port lines for the YRD10 Z checkweighing display Tolerance + target weight With data ID code Code 2 2 3 8 7 1 7 1 2 7 2 2 As an alternative, you can select this code: Target weight only 7 1 3 Application: Weighing-in the same amounts of samples Step/Key ID/Key c; place sample container on pan; t Weigh in required sample amount Store: STO - f Readout Data Output 0.000 mg + 493.
Over/Under Checkweighing with Additional Requirements Changing the Tolerance Limits You can individually define the tolerance limits to be between 0.1% and 10%. Tolerance limits +/– 0.1% over/under deviation from the target +/– 0.2% over/under deviation from the target +/– 0.5% over/under deviation from the target +/– 1.0% over/under deviation from the target +/– 1.5% over/under deviation from the target +/– 2.0% over/under deviation from the target +/– 2.5% over/under deviation from the target +/– 3.
Activation of the Data Output Port Lines You can have different data output port lines – provided by the balance interface – activated according to your requirements by setting the appropriate menu code listed below. For filling, the port lines can be activated regardless of stability. However, for standard checkweighing applications, the port lines should be activated only at stability. This increases the reading speed for an externally connected checkweighing display (YRD 10 Z).
Counting Counting Code 2 1 4 Symbol displayed: P Key identified in the display as follows: – Before the program is selected STO REF - F – During counting OPT - F The counting program allows automatic conversion of weights into piece counts based on a reference sample weight identified by “wRef.
Updating the Reference Sample Accuracy While counting (piece count readout), you can press F identified by “OPT” to update the reference sample for optimizing the accuracy (approx. double the reference sample quantity). In the process, the reference weight (average piece weight) is recalculated based on the total reference sample weight and the piece count displayed. It makes sense to update the reference sample accuracy when the weight of the reference sample quantity is lighter than 100 digits.
Practical Example: Counting Small Parts Menu code settings used in the example: Function Counting Ref. quantity and ref. weight With data ID code As an alternative, you can select this code: Reference weight only 7 1 3 Code 2 1 4 7 1 2 7 2 2 Application: Counting of bulk quantities of items with the same weight and with a light average piece weight Step/Key ID/Key Readout Place container on pan + 122.650 mg c, t 0.
Counting with Additional Requirements Changing the Reference Sample Quantity You can change the reference sample quantity as required: – Enter the reference sample quantity (piece count) using the numeric keys and store it with F identified by “STO REF” or – Change it in the parameter mode To select the parameter mode: – Hold down i for more than 2 seconds To change the setting: – Use f identified by “^” If you enter a wrong number, press c to clear it To store the reference quantity – temporarily until
Error Codes for the Application Programs These error codes enable you to identify any operator errors that occur. Readout Meaning Err 10 The t key is blocked when the tare memory has a value stored. Reason/Solution The tare functions are interlocked with respect to each other. To release the t key, clear the tare memory of the particular function key (press c). Err 11 By pressing TAR - f, you tried to store a value not allowed in the tare memory.
Readout Meaning Err 80 Arithmetic error occurred during the density determination program Reason/Solution Do not try to store “0” as the mass value. Err 234 Initial activation of the Turn the balance off and back “differential weighing on again. and backweighing program” The rechargeable battery for the “differential weighing and backweighing” memory (RAM) is decharged or defective. 3–60 Leave the balance connected to line current for approx. 12 hours to charge the battery.
Interface Description This description has been written for users who wish to connect their Sartorius MC balance to a computer or a different peripheral device via the balance’s standard V24/V28 RS-232C(-S)*)/423 interface. By using an on-line computer, you can change, activate and monitor the functions of the balance and the application programs.
General Specifications Type of interface Operating mode Standard Handshake*) Transmission rates*) Character coding Parity*) Synchronization Data output format*) of the balance Character format*) Serial point-to-point connector Asynchronous, full-duplex V28, RS-232C, RS-423 specification 2-wire interface: via software (XON/XOFF) 4-wire interface: via hardware handshake lines Clear To Send (CTS) and Data Terminal Ready (DTR) 150; 300; 600; 1,200; 2,400; 4,800; 9,600; 19,200 baud 7-bit ASCII Mark**), space*
Data Output Formats Depending on the menu code setting: 7 2 1 = without data ID code or 7 2 2 = with data ID code, data will be output with either 16 (code 7 2 1) or 22 characters (code 7 2 2). For a data output of 22 characters, a 6-character ID, as defined in the application program selected, precedes the 16 characters. Data Output Format with 16 Characters Display segments that are not activated (+ or – sign, leading zeros other than zeros before the decimal point) are output as spaces.
When data are output without decimals, the decimal point is suppressed (except when a certain display mode is selected). 1 + * – 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 * * * * * * –––––––––––––––––––––––– 7 6 5 4 3 2 1 0 * 10 10 10 10 10 10 10 10 * –––––––––––––––––––––––– 0 0 0 0 0 0 0 * * * E E E CR LF Data output example: +1501.117 mg 1 2 3 4 5 6 7 8 9 + * 1 5 0 1 .
Unit symbols: No stability parameter Grams Kilograms Carats Pounds Ounces Troy ounces Hong Kong taels Singapore taels Taiwanese taels Grains *** g ** k g * c t * l b * o z * o z t t l h t l s t l t GN* d wt mg * /l b mo m K ** t o l b a t MS * %** p c s Pennyweights Milligrams Parts/pound Mommes Austrian carats Tola Baht Mesghal Percent Pieces (parts) Special Codes are output only if the menu code 6 11, 6 1 4 or 6 1 5 is set (see “Data Output Parameter” on page 2 –18).
Data Output with ID Code (Menu Code 7 2 2) When data with an ID code is output, the ID code consisting of 6 characters precedes the data with a 16-character format. During data output, all characters are shifted to the right by 6 characters. 1st 7th 22nd character K K K K K K V x x x x x x x x x * E E E CR * * * * * * * * . . . . . . * * * LF V = Plus or minus sign * = Space x = Digit E = Unit .
Data Input Formats Commands can be input via the balance interface port to control the balance and application program functions. Control commands are distinguished according to those with upper-case letters, or special characters, and those with lower-case letters. Format for Control Commands Control commands can include up to 13 characters. Each character must be transmitted with a start bit, a 7-bit ASCII-coded character, a parity bit and one or two stop bits.
Control Commands with Upper-Case Letters or Special Characters ESC P CR LF Print; stop/start auto print ESC Q CR LF Acoustic signal ESC S CR LF Self-test ESC T CR LF Tare ESC Z CR LF Internal calibration ESC = CR LF Internal linearization The commands “P” through “=” do not affect the code settings of the balance operating menu. The command “S” causes the processor to reinitialize (turns the balance off and back on again).
Control Commands with Lower-Case Letters All functions that can be selected by pressing the appropriate keys on the balance can also be activated by commands.
Computer-Controlled Operation of the Draft Shield Control Commands for the Draft Shield on Models MC 210 S (-0CE), MC 210 P (-0CE), MC 410 S (-0CE) and MC 21 S ESC w 1 _ CR LF Open draft shield to approx.
Data Output Formats for the “Draft Shield Status” These depend on the particular menu code setting: code 7 2 1 “without data ID code” = data output with 16 characters, or code 7 2 2 “with data ID code” = data output with 22 characters Data Output Format with 16 Characters 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 * * * * * * W * 0 X X Y Y Y CR LF Data Output Format with ID Code (22 Characters) With this format, the ID code “Stat” is output in the 1st through the 4th places.
“Control Error” The control code for “control error” is output if the draft shield door has not reached the selected position after one attempt (for mechanical reasons). yyy = Turning Angle of the Draft Shield The movements of the motorized draft shield door are output as a 3-place decimal number with a position readout. The readout 000 to approx. 360 corresponds to the absolute, counterclockwise position 0° to 360°.
Synchronization and Data Output Parameters Definition During data communication between the balance and an on-line device (computer), “telegram-style” information consisting of ASCII characters is transmitted by the interface. For error-free data communication, the interface parameters including the baud rate, parity and handshake mode, as well as the character format, must be the same for both units.
If the device addressed does not understand the control command, the SBI receiving device continues to operate additionally with a hardware handshake after it has received another 6 characters. For data communication with a software handshake, “XON” must be sent by a device when it is turned on in order to enable another on-line device to exchange data.
Activating a Data Output Process You can define the data output parameter so that output is activated either automatically, or when a print command is received. You have two options for the automatic mode: data output can be either synchronous with the balance display or activated at defined intervals (to select the parameter, see part 2, “Utilities”). Data Output by Print Command The print command can be transmitted by a software command or by pressing the print key.
Interface Parameter Settings Baud Rate 150 baud 300 baud 600 baud 1,200 baud 2,400 baud 4,800 baud 9,600 baud 19,200 baud Parity Mark parity Space parity Odd parity Even parity Number of Stop Bits 1 stop bit 2 stop bits Handshake Mode Software handshake Hardware handshake with 2 characters after CTS Hardware handshake with 1 character after CTS * ** ** * * * 5 5 5 5 5 5 5 5 Code 1 1 1 1 1 1 1 1 1 2 3 4 5 6 7 8 5 5 5 5 Code 2 2 2 2 1 2 3 4 Code 5 3 1 5 3 2 Code 5 4 1 5 4 2 5 4 3 ** = factory set
Special Interface Functions Data Input/Output to/from the Female Interface Connector You can plug an external switch for remote control into the female interface connector (such as foot switch YPE 01 RC with the three functions ”open/close draft shield,” ”tare” and “print” [factory setting]). If you change the menu code setting, you can interface both a checkweighing display (such as our color-coded YRD11Z for OVER/UNDER checkweighing) and our universal remote-control switch to your balance.
Control Lines For classification or filling in the “over/under checkweighing” application program, you can use the voltage levels of four data output port lines to control an external on-line display or control instrument. To activate the control lines, set code 8 7 1 in the balance operating menu. The voltage levels of the data output ports will change according to various patterns, depending on the reference weight and on the lower and upper weight limits.
Pin Assignment Chart Female Interface Connector: 25-position D-submini, DB25S, with screw lock hardware for cable gland Male Connector Required: (please use connectors with the same specifications) 25-pin D-submini, DB25S, with shielded cable clamp assembly (Amp type 826 985-1C) and fastening screws (mate screws for female screw lock, Amp type 164 868-1) Pin Assignment: Pin 1: Pin 2: Pin 3: Pin 4: Pin 5: Pin 6: Pin 7: Pin 8: Pin 9: Pin 10: Pin 11: Pin 12: Pin 13: Pin 14: Pin 15: Pin 16: Pin 17: Pin 18: Pin
Cabling Diagrams Diagram for interfacing a computer or a different peripheral device to the computing device (balance) using the RS-232 C/V24 standard and interface cables up to 15 m (50 ft.
Diagram for interfacing a peripheral device to the computing device using the RS-423/V10 standard and interface cables up to 300 m (984 ft.) long RS423 Balance Peripheral device (PC) Type of cable: AWG 24 specification *) = The protective ground is on one side only.
Specifications ▲ ▲ ▲ ▲ ▲ ▲ ▲ ▲ ▲ ▲ ▲ ▲ ▲ ▲ ▲ ▲ ▲ ▲ ▲ ▲ ▲ ▲ ▲ ▲ ▲ ▲ ▲ ▲ ▲ MC 210 S MC 210 P MC 410 S SuperRange PolyRange SuperRange g 210 60/110/210 410 mg 0.01 0.01/0.02/0.05 0.1 g 210 210 410 mg ≤±0.015/ ≤±0.02/0.4/ ≤±0.15 0.02/0.03 0.5 0–50/50–100 0–50/50–100/ for weighing range g 100–210 100–210 Linearity mg ≤±0.12 ≤±0.15 ≤±0.5 Linearity within 5 g mg ≤±0.02 ≤±0.02 Response time (average) s –––––––––––– ≤10 –––––––––––––––– ≤2.5 ––– Response time in the IQ-mode (0.
Specifications Model Capacity Readability Tare range (subtractive) Repeatability (standard deviation)* Linearity Response time (average) Response time in IQ mode (0.01%) Adaptation to ambient conditions Display update (depends on the filter level selected) Operating temperature range Sensitivity drift within 278...
▲ ▲ ▲ ▲ ıug mm mm <± 5 <± 3 Ø 30 Ø 20 –––––––––––––––– 122 –––––––––––––––– ▲ ▲ ▲ ▲ ▲ ▲ ▲ ▲ ▲ –––––––––––––––––3.3––––––––––––––––– –––––––––––––––––3.1 ––––––––––––––––– TNG6 power supply, 230 or 115, +15%...–20% ––––––––––––––– 50–60 ––––––––––––––– ––––––18.
Specifications for Verified Balances with an EC Type Approval ▲ ▲ ▲ ▲ ▲ ––– By selection of 1 of 4 optimized filter levels –– –––––––––––––––– 0.2–0.4 –––––––––––––––– –––––––––––––––– +5...+40 –––––––––––––––– ––––––––––––––– +10 ... +40 –––––––––––––– –––––––––––––––––– Ø 90 –––––––––––––––––– –––––––––––––––– 167 x 245 ––––––––––––––– –––––––––––––––––––12 ––––––––––––––––––– TNG6 230 VAC or 115 VAC, –20%...
▲ ▲ ▲ ▲ ▲ ▲ ▲ g µg mg mg g s ▲ –––By selection of 1 of 4 optimized filter levels ––– ▲ ▲ 0.1– 0.4 0.2–0.4 –––––––––––––––– 0 ... +40 –––––––––––––––– °C mm mm ––––––––––––––– +15 ... +25 ––––––––––––––– Ø 30 Ø 20 –––––––––––––––––––122––––––––––––––––––– ▲ ▲ ▲ ▲ ▲ ▲ ▲ ▲ ▲ ––––––––18.
5–6 Z.14-755 320 34-10.
Accessories (Options) Data printer with date/time and statistics functions – approved for legal metrological verification Print speed approx. lines/sec. Printer housing (W x D x H) in mm in inches Remote display (can be plugged into the interface port) – LCD, reflective – LCD for overhead projectors, transmissive YDP 03-0CE 1.5 150 x 138 x 43 5.9 x 5.4 x 1.
Accessories (Options) Universal remote-control switch with menu-definable p, t, f/F key or open/close draft shield function Foot switch with T-connector Hand switch with T-connector YFS 01 YHS 01 T-connector YTC 01 Weighing bowls and trays – Stainless steel (chromium nickel), 20 g – Glass, 20 g – Stainless steel, 300 ml, with pouring spout 6003 6015 Pure aluminum weighing bowls and scoops – 2.7 x 4 x 12 mm, approx. 4.5 mg (250 per package) – 6.5 x 7 x 25 mm, approx.
Accessories (Options) SartoWedge data transfer software program enables you to have data, recorded by your balance, input directly into any application program you are running on your PC (e.g., Excel). Memory-resident software (5 KB) for all IBM-compatible computers and balances that are equipped with a serial interface.
Declarations of Conformity The C Mark on Sartorius Equipment In 1985, the Council of the European Community approved a resolution concerning a new approach to the technical harmonization and standardization of national regulations. The organization for monitoring compliance with the directives and standards concerning C marking is governed in the individual EU Member States through the implementation of the EC Directives adopted by the respective national laws.
Important Note: The operator shall be responsible for any modifications to Sartorius equipment and for any connections of cables or equipment not supplied by Sartorius and must check and, if necessary, correct these modifications and connections. On request, Sartorius will provide information on the minimum operating specifications (in accordance with the Standards listed above for defined immunity to interference).
“EC Verification – A Service Offered by Sartorius Our service technicians authorized to perform the verification* of your weighing instruments which are acceptable for legal metrological verification can inspect and verify the metrological specifications at the place of installation within the Member States of the European Union and the Signatories of the European Economic Area. “New Installation” Service Initial verification is covered in our “New Installation” service package.
6–4
Index Part – Accessories Adjusting the display unit Adjusting the sensitivity Air buoyancy correction program Air density determination Ambient conditions, adapting the balance Analog display Antiheft locking device, fastening Application programs Approval certificate Area of installation Automatic data output Automatic draft shield function Automatic taring Auto print Auto Zero function Backweighing Balance operating menu Bar graph Beep tone (acoustic signal) Below-balance weighing Blocking the function k
Part – Display update Display symbols Draft shield Draft shield, installing Electrostatically charged samples Error codes Equipment supplied EUREKA Factory settings Filling Fully automatic calibration Fully automatic draft shield function Page 5–1 1 – 19 1 – 21, 2 – 23 1 – 12 1 – 16 1 – 38 3 – 59 1 –7 3 –5 2 – 23 3 – 15, 3 – 19 Information (info function) 3 –4 Interference 1 – 31-35 Interference, radio frequency 1 – 14 Interval, data output 2 – 19 Installation instructions 1 –8 IQ-mode 1 – 28 ISO/GLP re
Part – Page Place of installation Pin assignment chart PolyRange function Power-on mode Print on request Printouts 1 –8 4 – 19 2 – 12 2 – 22 2 – 18 2 – 18 Readability Reset function Rounding factors 5 –1 2 –4 2 – 11, 2 – 12 3 – 32 Record configuration Safety precautions Selecting the memory location no. Self-calibration, Self-calibrating Self-test Servicing Serial no., displaying the Setting the date Setting the ID no.
Sartorius AG b 37070 Goettingen, Germany p Weender Landstrasse 94–108, 37075 Goettingen, Germany t (+49/551) 308-0, f (+49/551) 308-32 89 Internet: http://www.sartorius.com Copyright by Sartorius AG, Goettingen, Germany. All rights reserved. No part of this publication may be reprinted or translated in any form or by any means without the prior written permission of Sartorius AG. The status of the information, specifications and illustrations in this manual is indicated by the date given below.
WMC6014-e98043 Brief Instructions for Sartorius Micro for Standard Models and Models Verified Key Functions Key Function c Clears a function e Turns the balance on or off l/r Opens draft shield towards left/right i Displays info in an application prog.
Setting a Menu Code Turn off the balance; then turn it back on again. While all segments are displayed, briefly press t. If “-L-” is displayed, change to “-C-” using the menu access switch (on the rear panel of the balance computing device).
Adjusting the External Draft Shield Element on MC 210 S, MC 210 P and MC 410 (-0CE) The draft shield consists of two semicylindrical elements. Grasp the lower riffled part of the element to turn it to the position you desire. In addition, you can move the swivel-mounted display to the position you desire (+/– 85°). Adjusting the Aperture Angle of the Draft Shield A narrow aperture angle will reduce the effects of drafts, allowing the balance readout to stabilize faster.
Calibration Linearization Internal when “CAL I” is displayed: Clear weighing pan Tare Internal: Clear weighing pan An acoustic signal indicates the end of calibration Display: 0.000 mg External: Clear weighing pan Hold down t for 2 sec. until the following appears: Choose “C.E.” for external calibration Tare If necessary, enter certified weight value using the numeric keys: Center required weight on the weighing pan Hold down t for 2 seconds until the following appears: Choose “L.I.
“EUREKA” Air Buoyancy Correction Program Menu codes required “EUREKA” air buoyancy correction program 2 1 8 Automatic data output 7 1 2 With data ID code 7 2 2 Application: Manufacture of alloys according to stoichiometric proportions (for example, determination of masses to ensure that the quantities weighed remain in exact proportions) Because of air buoyancy, samples or objects with the same mass but different densities have different weights.
The Most Important Menu Code Settings These charts summarizing the menu parameters are intended to give you a quick reference guide. The most important menu codes for the weighing mode: Ambient conditions Code Very stable 1 1 1 Stable 1 1 2* Unstable 1 1 3 Very unstable 1 1 4 Weighing/filling Standard weighing Filling Code 1 2 1* 1 2 2 Stability range When the stability symbol (unit symbol) is displayed, the weight readout is stable within the range defined in digits. Code 0.25 digit 1 3 1 0.
Calibration and Linearization Functions Calibration test Accessible Access denied Code ** 1 11 1 * 1 11 2 External linearization** Accessible Access denied Code 1 12 1 1 12 2 * Multiple calibration mode Number of cal. procedures is indicated in the 3rd place of display, e.g. “C.I.
Automatic output of parameters Off Reference %/qty.