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Un buon manuale d’uso
Le regole impongono al rivenditore l'obbligo di fornire all'acquirente, insieme alle merci, il manuale d’uso Omega CL26. La mancanza del manuale d’uso o le informazioni errate fornite al consumatore sono la base di una denuncia in caso di inosservanza del dispositivo con il contratto. Secondo la legge, l’inclusione del manuale d’uso in una forma diversa da quella cartacea è permessa, che viene spesso utilizzato recentemente, includendo una forma grafica o elettronica Omega CL26 o video didattici per gli utenti. La condizione è il suo carattere leggibile e comprensibile.
Che cosa è il manuale d’uso?
La parola deriva dal latino "instructio", cioè organizzare. Così, il manuale d’uso Omega CL26 descrive le fasi del procedimento. Lo scopo del manuale d’uso è istruire, facilitare lo avviamento, l'uso di attrezzature o l’esecuzione di determinate azioni. Il manuale è una raccolta di informazioni sull'oggetto/servizio, un suggerimento.
Purtroppo, pochi utenti prendono il tempo di leggere il manuale d’uso, e un buono manuale non solo permette di conoscere una serie di funzionalità aggiuntive del dispositivo acquistato, ma anche evitare la maggioranza dei guasti.
Quindi cosa dovrebbe contenere il manuale perfetto?
Innanzitutto, il manuale d’uso Omega CL26 dovrebbe contenere:
- informazioni sui dati tecnici del dispositivo Omega CL26
- nome del fabbricante e anno di fabbricazione Omega CL26
- istruzioni per l'uso, la regolazione e la manutenzione delle attrezzature Omega CL26
- segnaletica di sicurezza e certificati che confermano la conformità con le norme pertinenti
Perché non leggiamo i manuali d’uso?
Generalmente questo è dovuto alla mancanza di tempo e certezza per quanto riguarda la funzionalità specifica delle attrezzature acquistate. Purtroppo, la connessione e l’avvio Omega CL26 non sono sufficienti. Questo manuale contiene una serie di linee guida per funzionalità specifiche, la sicurezza, metodi di manutenzione (anche i mezzi che dovrebbero essere usati), eventuali difetti Omega CL26 e modi per risolvere i problemi più comuni durante l'uso. Infine, il manuale contiene le coordinate del servizio Omega in assenza dell'efficacia delle soluzioni proposte. Attualmente, i manuali d’uso sotto forma di animazioni interessanti e video didattici che sono migliori che la brochure suscitano un interesse considerevole. Questo tipo di manuale permette all'utente di visualizzare tutto il video didattico senza saltare le specifiche e complicate descrizioni tecniche Omega CL26, come nel caso della versione cartacea.
Perché leggere il manuale d’uso?
Prima di tutto, contiene la risposta sulla struttura, le possibilità del dispositivo Omega CL26, l'uso di vari accessori ed una serie di informazioni per sfruttare totalmente tutte le caratteristiche e servizi.
Dopo l'acquisto di successo di attrezzature/dispositivo, prendere un momento per familiarizzare con tutte le parti del manuale d'uso Omega CL26. Attualmente, sono preparati con cura e tradotti per essere comprensibili non solo per gli utenti, ma per svolgere la loro funzione di base di informazioni e di aiuto.
Sommario del manuale d’uso
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Pagina 1
http://www .omega.com e-mail: info@omega.com ® U ser’ s Guide C L 23A, 24, 25, 26, 27 Digital Calibrator/Thermometer[...]
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Pagina 2
Servicing North America: USA: One Omega Drive, Box 4047 ISO 9001 Certified Stamford, CT 06907-0047 Tel: (203) 359-1660 FAX: (203) 359-7700 e-mail: info@omega.com Canada: 976 Bergar Laval (Quebec) H7L 5A1 Tel: (514) 856-6928 FAX: (514) 856-6886 e-mail: canada@omega.com For immediate technical or application assistance: USA and Canada: Sales Service:[...]
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Pagina 3
T ABLE OF CONTENTS General Information ......................................................................... 2 Common Specifications ................................................................... 2 Unique Specifications ...................................................................... 5 Features........................................[...]
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Pagina 4
GENERAL INFORMA TION This manual provides operating instructions and maintenance information for five temperature instruments. These instruments are high performance cali- brator-thermometers capable of simulating and measuring a wide-variety of sensors. In addition, features such as data storage and ramping further enhance their versatility. It is[...]
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Pagina 5
3 RTD; ± 0.2°F (rdg ≥ – 50°F) RTD; ± 0.5°F (rdg < – 50°F) RTD; ± 0.2°F ± 0.04% rdg (meter mode) THERMISTOR; ± 0.5F OHMS; ± 0.02% range * Exclusive of sensor errors, and lead resistance induced errors. RESOLUTION: TEMPERATURE; 0.1°/1° F/C RESOLUTION: OHMS; 0.01 Ω /0.1 Ω /1 Ω REPEATABILITY (1 week at constant ambient tempe[...]
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Pagina 6
4 KEYPAD: 12 momentary switches with tactile feedback select; • On/Off • Change/Enter • Clear/–0 • Sensor Select/1 • °F/°C/2 • Resolution/3 • Operate/4 • Store/5 • Recall/6 • Calibrator/Meter/Up Ramp/7 • Calibrator Step/Down Ramp/8 • Calibrator Ramp/Meter Hold/9 DISPLAY: 5 digit LCD, 0.4" height, and decimal point. [...]
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Pagina 7
5 BATTERY LIFE, CONTINUOUS: 10 hrs. typical, alkaline; 3 hrs typical, Ni-Cd (rechargeable). BATTERY INDICATOR: Display indicates BAT when less than 10% of life remains. DIMENSIONS, WEIGHT: 7.0" × 2.9 × 1.1". Net weight 12 oz. UNIQUE SPECIFICA TIONS NOTE: The specifications below are specific to the model(s) as identified by model number[...]
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Pagina 8
ACCURACY: (18°C to 28°C ambient, 2 years): ± 0.5 °F (rdg ≥ –50°F). ± 0.04% rdg (rdg > 1250°F) ± 1.0°F (rdg < –50°F) OHMS; ± 0.04% range TEMPERATURE COEFFICIENT: 18°C to 28°C; included in accuracy specifications. From 0°C to 18°C, and 28°C to 50°C. K, J, T, E; ± (0.006% rdg + 0.03°C)/°C RTD, THERMISTOR, OHMS; ± (0.00[...]
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Pagina 9
UNP ACKING YOUR UNIT Remove the Packing List and verify that you have received all equipment. If you have any questions about the shipment, please call the OMEGA Customer Service Department at 1-800-622-2378 or (203) 359-1660. When you receive the shipment, inspect the container and equipment for any signs of damage. Note any evidence of rough hand[...]
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Pagina 10
WARNING Do not touch a temperature probe sheath when measuring excessively high or low temperatures, or toxic substances. WARNING Do not attempt to measure temperatures beyond the range of the probe being used. Probe damage or personal injury could result from exceeding a probe's maximum temperature rating. WARNING The American National Safety[...]
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Pagina 11
CAUTION Keep inputs electrically isolated from outputs. Do not con- nect an external voltage source between the two connectors, and avoid any external electrical pathways between input and output (T2 & T1). Failure to do so will disturb meter readings and calibrator output levels. Damage to the instrument is also possible. Where the meter and c[...]
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Pagina 12
2. Remove the old battery by lifting the battery extractor loop. 3. Place the new battery in the battery compartment. Be sure to observe proper polarity. 4. Re-install the battery cover before resuming use of the instrument. NOTES: • Less than 10% of battery life remains when the BAT annuncia- tor turns on. • When the battery is excessively dis[...]
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Pagina 13
OPERA TING INSTRUCTIONS 1. DIAGNOSTICS AND ERROR MESSAGES Unit self-diagnostics provide fault condition readouts which are described below: PROBLEM: LIKELY CAUSE: Blank display, unit does not (1) Improper battery installation. power-up. (1) Check battery polarity. (2) Dead battery. BAT Annunciator. (1) Low battery voltage, install a new battery. If[...]
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Pagina 14
If the unit is turning on for the first time after a new battery is installed, it will automatically default to the METER mode (ie. temperature measurement operation). It also defaults to K-type thermocouples, and °F readings with 0.1° resolution. The corresponding LCD annunciators are enabled: 12 Figure 3. Display Test Figure 2. Keypad[...]
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Pagina 15
METER: (unit functioning as a thermometer) K: (K-type thermocouple) °F: (Fahrenheit readings) OPR: (Instrument is operational) If no input thermocouple is connected to the unit at this time, the numeric segments will indicate "OPEN". Plugging a thermocouple into the meter jack (connector T2, on the top right side) will give actual thermo[...]
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Pagina 16
14 Figure 4. 2-Wire Resistance Measurement Figure 5. 3-Wire Resistance Measurement 6. Select display resolution with 0.1°/1° key. NOTE: Set-up is retained during power-off. Hold: Meter readings can be put on hold at any time by depressing the HOLD key. At this time, the HOLD annunciator turns on, the reading is frozen, and all keys (except ON/OFF[...]
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Pagina 17
15 Lead resistance errors are compensated for in 3-wire configurations. However full compensation requires equal resistance in each lead. This configuration is common with 100-ohm RTDs. In 4-wire configurations, accuracy is unaffected by lead resistance, and resistance differences between leads. NOTE: These instruments measure input voltages on all[...]
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Pagina 18
To Save Readings: 1. While in the METER OPR mode, depress the STORE key. Note that the OPR annunciator is replaced by STO. 2. Next depress one of the memory location numbers (keys 0, 1, . . ., 9). The corresponding memory annunciator turns on and the meter returns momentarily to the OPR mode, displaying thermocouple temperature. eg. STORE 7 NOTES: [...]
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Pagina 19
eg. RECALL 3 eg. RECALL 5 eg. RECALL 2 eg. etc. 4. To return the meter to the operate mode, depress OPR after recalling the last reading. All active location annunciators will turn on again, together with the OPR annunciator. NOTE: Recalling data from unused (ie, empty) locations will give a zero reading. To Erase Data Locations (Meter Mode): 1. In[...]
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Pagina 20
18 6. Select the resolution desired (0.1°/1° key). NOTE: With 1° resolution, one less key stroke will be required to enter calibrator output temperatures via the keypad. 7. The unit accepts numeric inputs by first changing the keypad to its num- ber-entry mode (NUM) by depressing the CHANGE/ENTER key once. The numeric display will flash, the OPR[...]
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Pagina 21
Figure 10. 4-Wire Resistance Simulation 19 Figure 8. 2-Wire Resistance Simulation Figure 9. 3-Wire Resistance Simulation GRN RED BLK WHT NOTE: Colors indicated apply to Model 84937 Calibration Cable. mA (current) source Calibrator (out) Thermometer (in) I out V out[...]
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Pagina 22
8. STORAGE AND RECALL OF CALIBRATOR SETTINGS While operating as a calibrator, the unit can store and recall up to 10 output settings (each with independent parameters, eg. °F/°C, sensor type, and res- olution) in random access memory. To Store Outputs: 1. While in the CALIB OPR mode, depress the STORE key. Note that the OPR annunciator is replace[...]
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Pagina 23
To Recall Outputs: 1. While in the CALIB OPR mode, set-ups saved earlier in memory can be recalled to program the calibrator output. First depress the RECALL key to recall a set-up. 1. Note that the RCL annunciator turns on, OPR turns off, and all memory locations annunciators are blanked. 2. Next hit the key with the number corresponding to the de[...]
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Pagina 24
9. STEP FUNCTION When operating in the CALIBRATOR mode, the STEP key will sequentially recall data stored in memory (up to 10 steps). At each step, the calibrator will display and output these parameters. The STEP function is non-functional in METER mode. 10. RAMP FUNCTION: CL25 and CL27 This feature, available only on Models CL25 and CL27, allows [...]
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Pagina 25
SER VICE INFORMA TION WARNING All service information is intended for qualified electronic mainte- nance personnel only. 1. CALIBRATION PROCEDURES This is a two-part procedure. Products with thermocouple functions only, fol- low the Thermocouple Calibration procedure below. Products with resistance functions (RTD, thermistor, ohms) follow first the[...]
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Pagina 26
24 NOTE: For calibrators with the older, single-jumper configura- tion, refer to calibration procedure beginning on page 39. 1 4. Install calibration cover in place of bottom-cover. 1 5. Re-install battery. 1 6. Hook up test-equipment, calibration cables, and U.U.T. per Figure 10. 1 7. Turn on DMM and TC simulator for warmup. Allow at least 30 minu[...]
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Pagina 27
Calibration Adjustments: NOTE: Do not deviate from the calibration adjustment sequence that follows. This will ensure that adjustments to be stored in EEPROM go to the correct locations. 1. Set meter-mode zero and gain adjustments per Table 1. 2. Hit OPR key (RTD annunciator turns off). 3. Set U.U.T. to CALIB, OPR, K, °F. 4. Turn U.U.T. OFF, then [...]
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Pagina 28
Sensor U.U.T. DMM Step Select Output Adjust Reading* 1 K 32.0°F P1 0.000 mV ± 1µV 2 K 2500.0°F P41 54.856 mV ± 1µV 3 Repeat Steps 1 & 2 As Required 4 J 32.0°F P1 0.000 mV ± 1µV 5 T 32.0°F P1 0.000 mV ± 1µV 6 E 32.0°F P1 0.000 mV ± 1µV 7 N 32.0°F P1 0.000 mV ± 1µV 8 B 1000.0°F P1 1.439 mV ± 1µV 9 R 32.0°F P1 0.000 mV ± 1µ[...]
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Pagina 29
27 Figure 13. Calibration Setup, Calibrator Mode. Figure 11. Calibration Setup, Copper Mode. Figure 12. Calibration Setup, Meter Mode.[...]
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Pagina 30
B. RESISTANCE CALIBRATION NOTE: Thermocouple and resistance calibrations are indepen- dent. However, potentiometer P1 is used in both thermocouple and resistance calibrations to set EEPROM constants. Follow cal- ibration procedures carefully to ensure that thermocouple and resistance calibrations do not disturb one another. Test Equipment Required:[...]
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Pagina 31
29 Figure 14. Resistance Calibration Setup[...]
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Pagina 32
Sensor Unit Unit Step Select Input Adjust Verify Reading* 1 RTD-100 390.26 Ω P1** 1562.0°F±0.5°F 2 RTD-100 100.00 Ω√ 32.0± 0.1°F 3 RTD-100 18.49 Ω√ –328.0± 0.2°F 4 RTD-1000 3,902.6 Ω P1** 1562.0°F±0.5°F 5 RTD-1000 1000.0 Ω√ 32.0+0.1°F 6 1,000 Ω 900.00 Ω P1 900.00 Ω 7 1,000 Ω 1.00 Ω√ 1.00± 0.10 Ω 8 10,000 [...]
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Pagina 33
31 Current Sensor Unit Source DMM Step Select Output Input Adjust Verify Reading* 1 RTD-100 1562.0°F 1mA P38 0.39026v 2 RTD-100 32.0°F 1mA √ 0.10000 ± 0.00003v 3 RTD-100 –328.0°F 1mA √ 0.01849 ± 0.00006v 4 RTD-1000 1562.0°F 100µA P51 0.39026v 5 RTD-1000 32.0°F 100µ A √ 0.10000 ± 0.00003v 6 1,000 Ω 900.00 Ω 1mA √ 0.90000 ± 0[...]
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Pagina 34
Current Sensor Unit Source DMM Step Select Output Input Adjust Verify Reading* 1 RTD-100 1562.0°F 1mA P38 0.39026v 2 RTD-100 32.0°F 1mA √ 0.10000 ± 0.00006v 3 RTD-100 –328.0°F 1mA √ 0.01849 ± 0.00012v 4 1,000 Ω 900.00 Ω 1mA √ 0.90000 ± 0.00020v 5 1,000 Ω 1.00 Ω 1mA √ 0.00100 ± 0.00020v 6 100,000 Ω 90,000 Ω 10µA P51 0.9[...]
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Pagina 35
33 Model Software Revision CL23A 6.7 CL24 7.7 CL25 3.7 CL26 5.6 CL27 4.16 (Software revision is marked on a label attached to integrated-circuit U1 on the mother-board). "Copper-mode" is a non-compensated mode of operation during which cold-junction compensation of inputs and outputs is disabled. This permits the use of copper-wire interc[...]
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Pagina 36
4. Select type K thermocouple (“K” on display) by pressing the SENSOR SELECT function button until type K is reached. 5. Select the tenth degree display (with a digit appearing after the decimal point on the display) by pressing the 0.0.1 function button. 6. Select °F (“°F” on display) by pressing the °F °C function button. 7. Press the[...]
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Pagina 37
19. Press the SENSOR SELECT function button. The sensor type will change to type T. The “J” will disappear from the display and a “T” will appear on the display. The voltmeter should read 0.000 mV. 20. Press the SENSOR SELECT function button. The sensor type will change to type E. The “T” will disappear from the display and an “E” w[...]
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Pagina 38
32. Press the SENSOR SELECT function button. The sensor type will change to type C. A “C” will appear momentarily in the center of the display. “600.0” will then appear in the center of the display and both the “T” and “R” will appear along the top row of the display. 33. Press the CHANGE function button. The “600.0 °F” display[...]
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Pagina 39
3. Select the calibrator mode (“CALIB” on display) by pressing the CALIB/METER function button. 4. Select type K thermocouple (“K” on display) by pressing the SENSOR SELECT function button until type K is reached. 5. Select the tenth degree display with a digit appearing after the decimal point on the display) by pressing the 0.0.1 function[...]
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Pagina 40
4. MECHANICAL PARTS DIAGRAM 38[...]
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Pagina 41
39 CALIBRA TION PROCEDURES Test Equipment Required: 1. Thermocouple simulator (OMEGA CL25, or equivalent). 2. Microvolt null-meter (Keithley 155, or equivalent) 3. Calibration cover (OMEGA 820-307-4). 4. Calibration cables, T.C. types K, J, T & E (as required) per Figure1 below. 5. Low-thermal (eg. copper) shorting-link for null-meter. NOTE: Th[...]
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Pagina 42
40 NOTE: • With J1 removed, the digital-filters in the U.U.T. are dis- abled. This is to speed up U.U.T. response to calibra- tion adjustments. In this mode ± 0.1°F of reading noise is normal. NOTE: • Do not deviate from the calibration adjustment sequence that follows. This will ensure that zero adjust- ments for each TC type will be stored [...]
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Pagina 43
41 23. Select Type-E thermocouple. 24. Turn off U.U.T. 25. Replace T calibration-cable with E calibration-cable. 26. Turn on U.U.T. Allow 2-3 minutes for thermal stabilization. 27. Apply 32°F (Type E). Adjust P1 for a reading of 32.0°F (exclusive of noise). 28. Hit OPR key to store E-meter zero-adjustment. 29. Select Type-K thermocouple. 30. Sele[...]
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Pagina 44
42 47. Set both the U.U.T. and TC-simulator to output 32.0°F (Type T). Adjust P1 for a null-meter reading of 0± 3µV. 48. Hit OPR key to store T-calib zero adjustment. NOTE: Steps 49 thru 54 apply to Model CL24 only. For Model CL23A go next to step 55. 49. Select Type-E thermocouple. 50. Turn off U.U.T. 51. Replace T calibration-cable with E cali[...]
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Pagina 45
WARRANTY / DISCLAIMER OMEGA ENGINEERING, INC. warrants this unit to be free of defects in materials and workmanship for a period of 37 months from date of purchase. OMEGA Warranty adds an additional one (1) month grace period to the normal three (3) year product warranty to cover handling and shipping time. This ensures that OMEGA’s customers rec[...]
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Pagina 46
M1554/499 Where Do I Find Ev erything I Need for Process M easurement and Control? OM EGA…Of Course! TEMPERATURE 䡺 ⻬ Thermocouple, RTD & Thermistor Probes, Connectors, Panels & Assemblies 䡺 ⻬ Wire: Thermocouple, RTD & Thermistor 䡺 ⻬ Calibrators & Ice Point References 䡺 ⻬ Recorders, Controllers & Process Monitor[...]