- Бренд:
- Модель:AOIP TC 6622
- Артикул:9791
- Доступно:Є в наявності100
AOIP TC 6622 простой и надежный прибор, разработанный для упрощения обслуживания и ввода в эксплуатацию измерительных преобразователей температуры и термометров сопротивления. Позволяет измерять температуру и воспроизводить сопротивления и сигналы термометров сопротивления
- Измерение и генерация (воспроизведение)
- Погрешность измерений ±0,02%
- Измерение по 2-х, 3-х или 4-х проводной схеме
- Программирование функции выходного сигнала
- Мониторинг и регистрация показаний температуры
- Связь с ПК через USBпорт
- Хранение данных
- 12 типов термометров сопротивления
- Воспроизведение заданных значений с программируемой частотой
- Встроенное обновление ПО
- Незначительный температурный коэффициент 7ppm/°C
- Применяется для измерения температуры в полевых условиях идля калибровки приборов измерения температуры с использованием термометров сопротивления на всех видах производства, где необходимо измерять и контролировать температуру.
| Функция | Диапазон | Погрешность в течение 1 года |
| Измерение сопротивления | 0 … 400 Ом 0 … 3600 Ом | ±0,012% ИВ + 0,01 Ом ±0,012% ИВ + 0,1 Ом |
| Воспроизведение сопротивления | 0 … 400 Ом 0 … 3500 Ом | ±0,012% ИВ + 0,01 Ом ±0,012% ИВ + 0,1 Ом |
| Измерение и воспроизведение сигналов термометров сопротивления | Pt50, 100, 200, 500, 1000 (α=3851), Pt100 (α=3916 и 3926), Ni100, Ni1000 (α=618), Ni120 (α=672),Ni1000 (α=618),Cu10 (α=427), Cu50 (α=428) | См. полную спецификацию |
- Калибратор термометров сопротивления ТС 6622
- Защитный кожух
- 4 элемента питания АА
- Ремешок на запястье для переноски.
- Руководство по эксплуатации
- Свидетельство о поверке
- Свидетельство об утверждении типа СИ
- Аккумуляторы + зарядное устройствоAN 6011
- Платиновый термометр сопротивления Pt100 для работы в воздушной среде S101D
- Платиновый термометр сопротивления Pt100 для работы в воде S102D
Specifications and performances of TC 6621 @23°C ±5°C
DC voltage
| Function | Range | Res. | Accuracy / 1 year | Measuring range |
| IN | 100 mV | 1 µV | 0.020% RDG + 3 µV | -10 mV / 100 mV |
| OUT | 80 mV | 1 µV | 0.020% RDG + 3 µV | -9.5 mV / 80 mV |
Temperature coefficient < 15 ppm/°C beyond reference domain
Thermocouples: Measurement and simulation
| Type | Input range | Resolution | Accuracy / 1 year (Measurement) | Output range | Resolution | Accuracy / 1 year (Simulation) |
| K | -250 to -200°C -200 to -120°C -120 to 0°C 0 to +1372°C | 0.2°C 0.1°C 0.05°C 0.05°C | 0.90°C 0.3°C 0.02% RDG + 0.12°C 0.02% RDG + 0.11°C | -240 to -50°C -50 to +120°C +120 to +1372°C | 0.2°C 0.1°C 0.05°C | 0.8°C 0.3°C 0.02% RDG + 0.11°C |
| T | -250 to -200°C -200 to -50°C -50 to +400°C | 0.2°C 0.05°C 0.05°C | 0.8°C 0.25°C 0.02% RDG + 0.09°C | -240 to -100°C -100 to -40°C -40 to +400°C | 0.2°C 0.05°C 0.05°C | 0.5°C 0.25°C 0.02% RDG + 0.10°C |
| J | -210 to -200°C -200 to -120°C -120 to +60°C +60 to +1200°C | 0.05°C 0.05°C 0.05°C 0.05°C | 0.3°C 0.25°C 0.02% RDG + 0.11°C 0.02% RDG + 0.09°C | -210 to +50°C +50 to +500°C +500 to +1200°C | 0.05°C 0.05°C 0.05°C | 0.35°C 0.02% RDG + 0.11°C 0.02% RDG + 0.09°C |
| E | -250 to -200°C -200 to -100°C -100 to +450°C +450 to 1000°C | 0.1°C 0.05°C 0.05°C 0.05°C | 0.55°C 0.2°C 0.02% RDG + 0.07°C 0.02% RDG + 0.05°C | -240 to -100°C -100 to +40°C +40 to +1000°C | 0.1°C 0.1°C 0.05°C | 0.55°C 0.2°C 0.02% RDG + 0.06°C |
| R | -50 to +150°C +150 to +550°C +550 to 1768°C | 0.5°C 0.2°C 0.1°C | 0.95°C 0.4°C 0.02% RDG + 0.3°C | -50 to +350°C +350 to +900°C 900°C to +1768°C | 0.5°C 0.2°C 0.1°C | 0.95°C 0.4°C 0.02% RDG + 0.3°C |
| S | -50 to +150°C +150 to +550°C +550 to +1768°C | 0.5°C 0.2°C 0.1°C | 0.85°C 0.02% RDG + 0.4°C 0.02% RDG + 0.3°C | -50 to +350°C +350 to 900°C +900 to +1768°C | 0.5°C 0.2°C 0.1°C | 0.9°C 0.02% RDG + 0.4°C 0.02% RDG + 0.3°C |
| B | +400 to +900°C +900 to +1820°C | 0.2°C 0.1°C | 0.95°C 0.5°C | +400 to +850°C +850 to +1820°C | 0.2°C 0.1°C | 0.95°C 0.5°C |
| U | -200 to -100°C -100 to +600°C | 0.05°C 0.05°C | 0.35°C 0.2°C | -200 to -70°C -70 to +600°C | 0.05°C 0.05°C | 0.35°C 0.2°C |
| L | -200 to -100°C -100°C to +900°C | 0.05°C 0.05°C | 0.3°C 0.2°C | -200 to -70°C -70 to +900°C | 0.05°C 0.05°C | 0.3°C 0.25°C |
| C | -20 to +900°C +900 to 2310°C | 0.1°C 0.1°C | 0.3°C 0.02% RDG + 0.15°C | -20 to +900°C +900 to 2310°C | 0.1°C 0.1°C | 0.35°C 0.02% RDG + 0.15°C |
| N | -240 to -190°C -190 to -110°C -110 to +0°C +0 to +1300°C | 0.2°C 0.1°C 0.05°C 0.05°C | 0.6°C 0.25°C 0.15°C 0.02% RDG + 0.07°C | -240 to +10°C +10 to +250°C +250 to +1300°C | 0.2°C 0.1°C 0.05°C | 0.9°C 0.2°C 0.02% RDG + 0.09°C |
| Platine | -100 to +1400°C | 0.05°C | 0.3°C | -100 to +1400°C | 0.05°C | 0.35°C |
| Mo | +0 to +1375°C | 0.05°C | 0.02% RDG + 0.1°C | +0 to +1375°C | 0.05°C | 0.25°C |
| NiMo/NiCo | -50 to +1410°C | 0.05°C | 0.02% RDG + 0.35°C | -50 to +1410°C | 0.05°C | 0.02% RDG + 0.35°C |
Thermocouples G, D: For specifications, refer to the instruction manual (Available on request)
Accuracy is given for reference @ 0°C.
When using the internal reference junction (except couple B) add an additional uncertainty of 0.3 °C at 0 °C.
It is possible (thermocouple B excepted) to choose by programming the cold junction localization: External at 0°C, internal (temperature compensation of instrument’s terminals) or manually entered.
Temperature coefficient: <10% of accuracy /°C
Specifications and performances of TC 6622 @23°C ±5°C
Resistance
| Function | Range | Resolution | Accuracy / 1 year | Notes |
| IN | 400 Ω | 1 mΩ | 0.012% RDG + 10 mΩ | Automatic detection: 2, 3 or 4 wires |
| 3600 Ω | 10 mΩ | 0.012% RDG + 100 mΩ | Automatic detection: 2, 3 or 4 wires | |
| OUT | 400 Ω (DC current) | 1 mΩ | 0.012% RDG + 30 mΩ | Acceptable current: 0.1 to 1 mA |
| 3550 Ω (DC current) | 10 mΩ | 0.012% RDG + 300 mΩ | Acceptable current: 0.1 to 1 mA |
Connection in resistance and RTDs through banana plugs or 4-pin round connector
Temperature coefficient: < 7 ppm/°C beyond reference domain
Rising time in simulation: < 1 ms
R internal: < 1 Ω
Noise VLF < 1 mV (@ F< 100 Hz)
Resistive probes: Measurement and simulation
| Sensor | Range (Input and Output) | Resolution | Accuracy / 1 year (Measurement) | Accuracy / 1 year (Simulation) |
| Pt50 (α = 3851) | -220°C to +850°C | 0.01°C | 0.012% RDG + 0.06°C | 0.012% RDG + 0.18°C |
| Pt100 (α = 3851) | -220°C to +850°C | 0.01°C | 0.012% RDG + 0.05°C | 0.012% RDG + 0.12°C |
| Pt100 (α = 3916) | -200°C to +510°C | 0.01°C | 0.012% RDG + 0.05°C | 0.012% RDG + 0.12°C |
| Pt100 (α = 3926) | -210°C to +850°C | 0.01°C | 0.012% RDG + 0.05°C | 0.012% RDG + 0.12°C |
| Pt200 (α = 3851) | -220°C to +120°C | 0.01°C | 0.012% RDG + 0.12°C | 0.012% RDG + 0.33°C |
| Pt500 (α = 3851) | -220°C to +1200°C | 0.01°C | 0.012% RDG + 0.07°C | 0.012% RDG + 0.18°C |
| Pt1000 (α = 3851) | -220°C to +760°C | 0.01°C | 0.012% RDG + 0.05°C | 0.012% RDG + 0.08°C |
| Ni100 (α = 618) | -60°C to 180°C | 0.01°C | 0.012% RDG + 0.03°C | 0.012% RDG + 0.08°C |
| Ni120 (α = 672) | -40°C to +205°C | 0.01°C | 0.012% RDG + 0.03°C | 0.012% RDG + 0.08°C |
| Ni1000 (α = 618) | -60°C to +180°C | 0.01°C | 0.012% RDG + 0.03°C | 0.012% RDG + 0.08°C |
| Cu10 (α = 427) | -50°C to 150°C | 0.01°C | 0.012% RDG + 0.18°C | 0.012% RDG + 0.1°C |
| Cu50 (α = 428) | -50°C to +150°C | 0.01°C | 0.012% RDG + 0.06°C | 0.012% RDG + 0.15°C |
Resistive probes measurements in 2, 3 or 4 wires: automatic recognition of number of connected wires, with indication on screen
Accuracies are given for 4-wire mounted probes
Take into account particular error of temperature sensor used and implementation conditions
Measuring current: 0.65 mA
Simulation current: 0.1 mA to 1mA
Minimal current pulse duration: < 1 ms
Temperature coefficient: < 10% of accuracy /°C
Further features
| Scaling in measurement and simulation modes | This function allows sensors to be corrected after a calibration. Scaling is performed using up to 10 segments, in order to fit with the real calibrated value. |
| Calibrated sensors | A database can be created to design curves for sensor s after calibration according to the corrections mentioned on a calibration report. |
| Data recording | Data are recorded either manually on event or automatically with programmable frequency. Data is stored with date and time and can be displayed as list or curve. |
| Statistical functions | Continuous display of average, minimum and maximum value of the signal under monitoring, as well as number of measurements. |
| Simple and cyclical ramp generation | Ramps can be generated by setting low and high dwell, rising and falling times, stabilization and delay times (1 to 3,600 s). Delay time enables a single user to launch the ramp and go to the control panel. |
| Steps simulation | This mode allows predefined values to be sent with programmable amplitude and frequency. |
| Synthesizer | This mode allows predefined values to be sent with programmable frequency. |
General specifications
| Size | 157 x 85 x 45 mm |
| Weight | 306 g |
| Display | 160 x 160 pixel liquid crystal graphical display with backlite Display of result as table of values or trend curve |
| Power supply | 4 AA batteries 1.5 V or rechargeable Ni-Mh batteries with internal charger in option |
| Communication ports | USB |
| Storage capacity | 10,000 data with date and time into one or several acquisition bursts |
Environmental specifications
| Reference range | 23°C ±5°C (RH: 45 to 75% w/o condensing) |
| Operating reference range | -10 to 50°C (RH: 20 to 80% w/o condensing) |
| Limit operating range | -15°C to +55°C (RH: 10 to 80% w/o condensing) (70% at 55°C) |
| Storage temperature limits | -30°C to +60°C |
| Maximum height | 0 to 2,200 m |
| IP protection | IP54 according to EN60529 |
Safety specifications
| Protections |
|
| Class | In accordance with EN 61010-1 Category II, pollution 2 |
| Rated voltage | 60 V |
| Chocks and vibrations | EN 61010-1 |
| EMC conformity | Immunity:
EN 61000-4-4
|