Đồng hồ vạn năng để bàn Keithley 2002

Đồng hồ vạn năng để bàn Keithley 2002

Mã:
2002
Thương hiệu:
Bảo hành:
N/A
Giá: Liên hệ
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  • Dải đo điện áp:
  • Chữ số hiển thị:
  • Vui lòng liên hệ để kiểm tra tình trạng kho
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Hotline: 0906.988.447 

Liên hệ: Hồ Chí Minh

  • Điện thoại: (028).3977.8269
  • Email: sales@lidinco.com
  • Địa chỉ: 487 Cộng Hòa, Phường 15, Quận Tân Bình, TP. HCM

Liên hệ: Bắc Ninh, Hà Nội

  • Điện thoại: (0222).730.0180
  • Email: bn@lidinco.com
  • Địa chỉ: 184 Bình Than, Phường Võ Cường, TP. Bắc Ninh
  • Tư vấn Tư vấn kĩ thuật Miễn phí
  • Giao hàng Miễn phí vận chuyển Đơn hàng trên 3 triệu
Thông số kỹ thuật

Chỉ số hiển thị: 8½-digit

DCV: 200mV – 1000V / 10 nV – 100 µV / ±3.5ppm

ACV: 100mV – 750V / ±0.25%

DCA: 200 µA – 2A / 10 pA – 10pA / ±50ppm

ACA : 200µA and 2A / ±0.3%

Điện trở: 20Ω – 200MΩ / ±5ppm

Tụ điện: 1nF – 100µF/ ±1%

Màn hình: LCD 8-1/2 digit

Giao tiếp: RS-232, GPIB(tùy chọn)

Kích thước: 90mm × 214mm × 369mm

Khối lượng: 4.2 kg

Giới thiệu đồng hồ vạn năng độ chính xác cao  Keithley 2002/MEM1, 8-1/2-Digit


Đồng hồ vạn năng kỹ thuật số hiệu suất cao Model 2002 81/2 chữ số không chỉ cung cấp các thông số kỹ thuật hiệu suất thường chỉ liên quan đến các công cụ có giá hàng ngàn đô la, mà nó còn cung cấp một loạt các chức năng thường không có sẵn từ DMMs. Với độ nhạy DCV 1nV và độ chính xác cơ bản là 0,0006%, này cũng cung cấp 18 chức năng đo lường. Để linh hoạt hơn, một khe cắm thẻ tích hợp trên bảng điều khiển phía sau cho phép một thẻ multiplexer bổ sung cho các ứng dụng đo lường đa điểm. này cung cấp một sự lựa chọn tuyệt vời cho thử nghiệm sản xuất, xác minh thiết kế và các ứng dụng đo lường, nơi độ chính xác cao là rất quan trọng. ‎

2002

Thông tin thiết bị:


‎- Một loạt các chức năng đo lường tích hợp‎
‎- True 7-1/2 (Model 2001) hoặc độ phân giải 8-1/2 chữ số (Model 2002)‎
‎- Chức năng tốc độ cao và thay đổi‎ phạm vi ‎
‎- Nhiều màn hình đo lường‎
‎- Tính toàn vẹn đo lường đặc biệt với tốc độ cao‎
‎- Giao diện GPIB‎
‎- Chế độ thi đua HP3458A (Model 2002)‎

2001 General Specification
POWERVoltage90–134V and 180–250V, universal self-selecting.   
Frequency50Hz, 60Hz, or 400Hz self-identifying.   
Consumption<55VA   
ENVIRONMENTALOperating Temperature0° to 50°C   
Storage Temperature–40° to 70°C   
Humidity80% R.H., 0° to 35°C, per MIL-T-28800E 1 Para 4.5.5.1.2.   
PHYSICALCase Dimensions90mm high × 214mm wide × 369mm deep (3½ in. × 8½ in. × 14½ in.)   
Net Weight<4.2kg (<9.2 lbs.)   
Shipping Weight<9.1kg (<20 lbs.)   
STANDARDSEMI/RFIConforms to VDE 0871B (per Vfg 1046/1984), IEC 801-2. Meets FCC part 15 Class B, CISPR-22 (EN55022)   
SafetyConforms to IEC348, CAN/CSA-C22.2. No. 231, MIL-T-28800E 1 . Designed to UL1244   
Note 1For MIL-T-28800E, applies to Type III, Class 5, Style E   

 

2001 Condensed Specifications
DC VOLTS DCV INPUT CHARACTERISTICS AND ACCURACY
RangeFull ScaleResolutionDefault ResolutionInput ResistanceAccuracy ±(ppm of reading + ppm of range)
5 Minutes24 Hours90 Days1 Year2 Years
200mV±210.00000mV10nV100nV>10GΩ3+310+625+637+650+6
2V±2.1000000V100nV1µV>10GΩ2+1.57+218+225+232+2
20V±21.000000V1µV10µV>10GΩ2+1.57+418+424+432+4
200V±210.00000V10µV100µV10MΩ±1%2+1.513+327+338+352+3
1000V±1100.0000V100µV1mV10MΩ±1%10+1.517+631+641+655+6
DC VOLTS NOTES
  1. For TCAL ±1°C, following 55-minute warm-up. TCAL is ambient temperature at calibration, which is 23°C from factory
  2. For TCAL ±5°C, following 55-minute warm-up. Specifications include factory traceability to US NIST
  3. When properly zeroed using REL function
  4. DCV Transfer Stability typical applications are standard cell comparisons and relative accuracy measurements. Specs apply for 10 power line cycles, 20-reading digital filter, autozero on with type synchronous, fixed range following 2-hour warm-up at full scale to 10% of full scale, at TREF ±1°C (TREF is the initial ambient temperature). Specifications on the 1000V range are for measurements within 5% of the initial measurement value and following measurement settling

 

2001 AC VOLTS
RangeNormal Mode RMS 90 Days, ±2°C from last AC self-cal for 1% to 100% of range ±(% of reading + % of range)
20–50Hz50–100Hz0.1–2kHz2–10kHz10–30kHz
200 mV0.25 + 0.0150.07 + 0.0150.03 + 0.0150.03 + 0.0150.035 + 0.015
2 V0.25 + 0.0150.07 + 0.0150.03 + 0.0150.03 + 0.0150.035 + 0.015
20 V0.25 + 0.0150.07 + 0.0150.04 + 0.0150.06 + 0.0150.08 + 0.015
200 V0.25 + 0.0150.07 + 0.0150.04 + 0.0150.06 + 0.0150.08 + 0.015
750 V0.25 + 0.0150.1 + 0.0150.08 + 0.0150.09 + 0.0150.12 + 0.015
AC VOLTS NOTES
  1. Specifications apply for sinewave input, AC + DC coupling, 1 power line cycle, digital filter off, following 55 minute warm-up
  2. For 1% to 5% of range below 750V range, and for 1% to 7% of 750V range, add 0.01% to range uncertainty. For inputs from 200kHz to 2MHz, specifications apply above 10% of range
  3. Add 0.001% of reading × (VIN/100V) 2 additional uncertainty above 100V rms
  4. Typical values

 

2001 AC VOLTS
RangeNormal Mode RMS 90 Days, ±2°C from last AC self-cal for 1% to 100% of range ±(% of reading + % of range)
30–50kHz50–100kHz100–200kHz0.2–1MHz1–2MHz
200 mV0.05 + 0.0150.3 + 0.0150.75 + 0.0252 + 0.15 + 0.2
2 V0.05 + 0.0150.3 + 0.0150.75 + 0.0252 + 0.15 + 0.2
20 V0.1 + 0.0150.3 + 0.0150.75 + 0.0254 + 0.27 + 0.2
200 V0.1 + 0.0150.3 + 0.0150.75 + 0.0254 + 0.2 
750 V0.15 + 0.0150.5 + 0.015   
AC VOLTS NOTES
  1. Specifications apply for sinewave input, AC + DC coupling, 1 power line cycle, digital filter off, following 55 minute warm-up
  2. For 1% to 5% of range below 750V range, and for 1% to 7% of 750V range, add 0.01% to range uncertainty. For inputs from 200kHz to 2MHz, specifications apply above 10% of range
  3. Add 0.001% of reading × (VIN/100V) 2 additional uncertainty above 100V rms
  4. Typical values

 

2001 OHMS TWO-WIRE AND FOUR-WIRE OHMS (2W and 4W Ohms Functions)
RangeFull ScaleResolutionDefault ResolutionCurrent SourceResistance Accuracy ±(ppm of reading + ppm of range)
24 Hours90 Days1 Year2 Years
20 Ω21.000000Ω1 µΩ10 µΩ9.2 mA29+752+772+7110+7
200 Ω210.00000Ω10 µΩ100 µΩ0.98 mA24+736+756+790+7
2 kΩ2100.0000kΩ100 µΩ1 mΩ0.98 mA22+433+450+480+4.5
20 kΩ21.000000kΩ1 mΩ10 mΩ89µA19+432+450+480+4.5
200 kΩ210.00000kΩ10 mΩ100 mΩ7µA20+4.572+4.590+4.5130+5
2 MΩ2.1000000MΩ100 mΩ1 Ω770 nA50+4.5110+4.5160+4.5230+5
20 MΩ21.000000MΩ1 Ω10 Ω70 nA160+4.5560+4.5900+4.51100+5
200 MΩ210.00000MΩ10 Ω100 Ω4.4 nA3000 + 10010000 + 10020000 + 10030000 + 100
1 GΩ1.0500000GΩ100 Ω1 kΩ4.4 nA9000 + 10020000 + 10040000 + 10060000 + 100
OHMS NOTES
  1. Current source is typically ±9% absolute accuracy
  2. For 2-wire mode
  3. Specifications are for 1 power line cycle, 10 reading digital filter, Auto Zero on, 4-wire mode, offset compensation on (for 20Ω to 20kΩ ranges)
  4. For TCAL ±1°C, following 55 minute warm-up. TCAL is ambient temperature at calibration (23°C at the factory)
  5. For TCAL ±5°C, following 55-minute warm-up. Specifications include traceability to US NIST
  6. When measuring resistance of inductive loads, the inductance of that load must be 10mH or less

 

2001 DC AMPS DCI INPUT CHARACTERISTICS AND ACCURACY
RangeFull ScaleResolutionDefault ResolutionMaximum Burden VoltageAccuracy ±(ppm of reading + ppm of range)
24 Hours90 Days1 Year2 Years
200 µA210.00000µA10 pA100 pA0.25 V63+25300+25500+251350+25
2 mA2.1000000mA100 pA1 nA0.31 V64+20300+20400+20750+20
20 mA21.000000mA1 nA10 nA0.4 V65+20300+20400+20750+20
200 mA210.00000mA10 nA100 nA0.5 V96+20300+20500+20750+20
2 A2.1000000A100 nA1 µA1.5 V500+20600+20900+201350+20
DC AMPS NOTES
  1. Specifications are for 1 power line cycle, Auto Zero on, 10 reading digital filter
  2. For TCAL ±1°C, following 55 minute warm-up
  3. For TCAL ±5°C, following 55 minute warm-up. Specifications include traceability to US NIST
  4. Add 50 ppm of range for current above 0.5A for self heating
  5. Actual maximum voltage burden = (maximum voltage burden) × (IMEASURED/IFULL SCALE)

 

2001 AC AMPS
RangeACI ACCURACY 90 Days, 1 Year or 2 Years, TCAL ±5°C, for 5% to 100% of range, ±(% of reading + % of range)
20Hz– 50Hz50Hz– 200Hz200Hz– 1kHz1kHz– 10kHz10kHz– 30kHz30kHz– 50kHz50kHz– 100kHz
200 µA0.35+0.0150.2+0.0150.4+0.0150.5+0.015   
2 mA0.3+0.0150.15+0.0150.12+0.0150.12+0.0150.25+0.0150.3+0.0150.5+0.015
20 mA0.3+0.0150.15+0.0150.12+0.0150.12+0.0150.25+0.0150.3+0.0150.5+0.015
200 mA0.3+0.0150.15+0.0150.12+0.0150.15+0.0150.5+0.0151+0.0153+0.015
2 A0.35+0.0150.2+0.0150.3+0.0150.45+0.0151.5+0.0154+0.015 
AC AMPS NOTES
  1. Specifications apply for sinewave input, AC+DC coupling, 1 power line cycle, digital filter off, following 55 minute warm-up
  2. Add 0.005% of range uncertainty for current above 0.5A rms for self-heating
  3. Typical values

 

FREQUENCY COUNTER
AC VOLTAGE INPUT1Hz–15MHz
ACCURACY±(0.03% of reading)
DC IN-CIRCUIT CURRENT
TYPICAL RANGESCurrent100µA to 12A
Trace Resistance1mΩ to 10Ω typical
TEMPERATURE
Built-in linearization for J, K, N, T, E, R, S, B thermocouple types to ITS-90 and 100Ω platinum RTDs DIN 43 760 or IPTS-68

 

2002 General Specification
POWERVoltage90–134V and 180–250V, universal self-selecting   
Frequency50Hz, 60Hz, or 400Hz self-identifying at power-up.   
Consumption<55VA   
ENVIRONMENTALOperating Temperature0° to 50°C   
Storage Temperature–40° to 70°C   
Humidity80% R.H., 0° to 35°C   
PHYSICALCase Dimensions90mm high × 214mm wide × 369mm deep (3½ in. × 8½ in. × 14½ in.)   
Net Weight<4.2kg (<9.2 lbs.)   
Shipping Weight<9.1kg (<20 lbs.)   
STANDARDSEMI/RFIConforms to European Union EMC directive   
SafetyConforms to European Union Low Voltage directive   
Note 1For MIL-T-28800E, applies to Type III, Class 5, Style E   

 

2002 Condensed Specifications 
DC VOLTS DCV INPUT CHARACTERISTICS AND ACCURACY 
Enhanced Accuracy – 10PLC, DFILT 10 
RangeFull ScaleResolutionInput ResistanceAccuracy ±(ppm of reading + ppm of range) 
Transfer24 Hours90 Days1 Year2 Years 
200mV±210.00000mV1 nV>100 GΩ0.4+1.53.5+315+819+923+10 
2V±2.1000000V10nV>100GΩ0.2+0.151.2+0.36+0.810+0.914+1 
20V±21.000000V100nV>100GΩ0.1+0.051.2+0.16+0.1510+0.1514+0.15 
200V±210.00000V1µV10MΩ±1%0.5+0.085+0.414+222+230+2 
1000V±1100.0000V10µV10MΩ±1%1+0.055+0.0814+0.422+0.430+0.4 
Normal Accuracy – 1PLC, DFILT off 
RangeFull ScaleResolutionInput ResistanceAccuracy ±(ppm of reading + ppm of range)
24 Hours90 Days1 Year2 Years 
200mV±210.00000mV10 nV>100 GΩ3.5+615+1119+1223+13 
2V±2.1000000V100nV>100GΩ1.2+0.66+1.110+1.214+1.3 
20V±21.000000V100nV>100GΩ3.2+0.358+0.412+0.416+0.4 
200V±210.00000V10µV10MΩ±1%5+1.214+2.822+2.830+2.8 
1000V±1100.0000V100µV10MΩ±1%5+0.0414+0.722+0.730+0.7 
DC VOLTS NOTES 
  1. Specifications are for 10 power line cycles, synchronous autozero, 10-reading repeat digital filter, autorange off, except as noted
  2. For TCAL ±1°C, following 4-hour warm-up. TCAL is ambient temperature at calibration (23°C at the factory). Add 0.5ppm of reading uncertainty if the unit is power cycled during this interval
  3. For TCAL ±5°C, following 4-hour warm-up
  4. Care must be taken to minimize thermal offsets due to operator cables
  5. Specifications apply for 20-reading repeat digital filter, TREF ±0.5°C (TREF is the initial ambient temperature), and for measurements within 10% of the initial measurement value and within 10 minutes of the initial measurement time.
  6. Add 20ppm × (VIN/1000V) 2 additional uncertainty for inputs above 200V, except in transfer accuracy specifications
  7. Specifications are for 1 power line cycle, normal autozero, digital filter off, autorange off.
 

 

2002 AC VOLTS Normal Mode RMS
RangeNormal Mode RMS 90 Days, ±2°C from last AC self-cal for 1% to 100% of range ±(% of reading + % of range)
20–50Hz50–100Hz0.1–2kHz2–10kHz10–30kHz
200 mV0.25 + 0.0150.07 + 0.0150.02 + 0.020.02 + 0.020.025 + 0.02
2 V0.25 + 0.0150.07 + 0.0150.02 + 0.020.02 + 0.020.025 + 0.02
20 V0.25 + 0.0150.07 + 0.0150.03 + 0.0150.04 + 0.0150.05 + 0.015
200 V0.25 + 0.0150.07 + 0.0150.03 + 0.0150.04 + 0.0150.05 + 0.015
750 V0.25 + 0.0150.1 + 0.0150.05 + 0.0150.06 + 0.0150.08 + 0.015
AC VOLTS NOTES
  1. Specifications apply for sinewave input, AC + DC coupling, 1 power line cycle, autozero on, digital filter off, following 55-minute warm-up
  2. For 1% to 5% of range below 750V range, and for 1% to 7% of 750V range, add 0.01% of range uncertainty. For inputs from 200kHz to 2MHz, specifications apply above 10% of range.
  3. Add 0.001% of reading × (VIN/100V) 2 additional uncertainty for inputs above 100V rms.
  4. Typical values

 

2002 AC VOLTS
RangeNormal Mode RMS 90 Days, ±2°C from last AC self-cal for 1% to 100% of range ±(% of reading + % of range)
30–50kHz50–100kHz100–200kHz0.2–1MHz1–2MHz
200 mV0.05 + 0.010.3 + 0.0150.75 + 0.0252 + 0.15 + 0.2
2 V0.05 + 0.010.3 + 0.0150.75 + 0.0252 + 0.15 + 0.2
20 V0.07 + 0.0150.3 + 0.0150.75 + 0.0254 + 0.27 + 0.2
200 V0.07 + 0.0150.3 + 0.0150.75 + 0.0254 + 0.2 
750 V0.1 + 0.0150.5 + 0.015   
AC VOLTS NOTES
  1. Specifications apply for sinewave input, AC + DC coupling, 1 power line cycle, autozero on, digital filter off, following 55-minute warm-up
  2. For 1% to 5% of range below 750V range, and for 1% to 7% of 750V range, add 0.01% of range uncertainty. For inputs from 200kHz to 2MHz, specifications apply above 10% of range.
  3. Add 0.001% of reading × (VIN/100V) 2 additional uncertainty for inputs above 100V rms.
  4. Typical values

 

2001 OHMS TWO-WIRE AND FOUR-WIRE OHMS (2W and 4W Ohms Functions)
RangeFull ScaleResolutionCurrent SourceResistance Accuracy ±(ppm of reading + ppm of range)
Transfer24 Hours90 Days1 Year2 Years
20 Ω21.000000Ω100 nOΩ7.2 mA2.5+35+4.515+617+620+6
200 Ω210.00000Ω1 µΩ960 µΩ2.5+25+315+417+420+4
2 kΩ2100.0000kΩ10 µΩ960 µΩ1.3+0.22.5+0.37+0.49+0.411+0.4
20 kΩ21.000000kΩ100µΩ96µA1.3+0.22.5+0.37+0.49+0.411+0.4
200 kΩ210.00000kΩ1 mΩ9.6 µA2.5+0.45.5+0.529+0.835+0.940+1
2 MΩ2.1000000MΩ10 mΩ1.9 µA5+0.212+0.353+0.565+0.575+0.5
20 MΩ21.000000MΩ100 mΩ1.4 µA15+0.150+0.2175+0.6250+0.6300+0.6
200 MΩ210.00000MΩ1 Ω1.4 µA50+0.5150+1500+3550+3600+3
1 GΩ1.0500000GΩ10 Ω1.4 µA250+2.5750+52000+152050+152100+15
OHMS NOTES
  1. Current source has an absolute accuracy of ±5%
  2. For 2-wire mode
  3. Specifications are for 10 power line cycles, 10-reading repeat digital filter, synchronous autozero, autorange off, 4-wire mode, offset compensation on (for 20Ω to 20kΩ ranges), except as noted
  4. For TCAL ±1°C, following 4-hour warm-up. TCAL is ambient temperature at calibration (23°C at the factory).
  5. For TCAL ±5°C, following 4-hour warm-up
  6. Current source is paralleled with a 10MΩ resistance
  7. Specifications apply for 20-reading repeat digital filter, TREF ±0.5°C (TREF is the initial ambient temperature), and for measurements within 10% of the initial measurement value and within 10 minutes of the initial measurement time

 

2002 DC AMPS DCI INPUT CHARACTERISTICS AND ACCURACY
RangeFull ScaleResolutionMaximum Burden VoltageAccuracy ±(ppm of reading + ppm of range) 
24 Hours90 Days1 Year2 Years 
200 µA210.00000µA10 pA0.25 V50+6275+25350+25500+25 
2 mA2.1000000mA100 pA0.3 V50+5275+20350+20500+20 
20 mA21.000000mA1 nA0.35 V50+5275+20350+20500+20 
200 mA210.00000mA10 nA0.35 V75+5300+20375+20525+20 
2 A2.1000000A100 nA1.1 V350+5600+20750+201000+20 
DC AMPS NOTES 
  1. For TCAL ±1°C, following 55-minute warm-up. TCAL is ambient temperature at calibration (23°C at the factory)
  2. For TCAL ±5°C, following 55-minute warm-up
  3. Actual maximum burden voltage = (maximum burden voltage) × (I MEASURED/I FULL SCALE)
 

 

2002 AC AMPS
RangeACI ACCURACY 90 Days, 1 Year or 2 Years, TCAL ±5°C, for 5% to 100% of range, ±(% of reading + % of range)
20Hz– 50Hz50Hz– 200Hz200Hz– 1kHz1kHz– 10kHz10kHz– 30kHz30kHz– 50kHz50kHz– 100kHz
200 µA0.35+0.0150.2+0.0150.4+0.0150.5+0.015   
2 mA0.3+0.0150.15+0.0150.12+0.0150.12+0.0150.25+0.0150.3+0.0150.5+0.015
20 mA0.3+0.0150.15+0.0150.12+0.0150.12+0.0150.25+0.0150.3+0.0150.5+0.015
200 mA0.3+0.0150.15+0.0150.12+0.0150.15+0.0150.5+0.0151+0.0153+0.015
2 A0.35+0.0150.2+0.0150.3+0.0150.45+0.0151.5+0.0154+0.015 
AC AMPS NOTES
  1. Specifications apply for sinewave input, AC+DC coupling, 1 power line cycle, autozero on, digital filter off, following 55-minute warm-up
  2. Add 0.005% of range uncertainty for current above 0.5A rms for self-heating
  3. Typical values

 

FREQUENCY COUNTER
AC VOLTAGE INPUT1Hz–15MHz
ACCURACY±(0.03% of reading)
DC IN-CIRCUIT CURRENT
TYPICAL RANGESCurrent100µA to 12A
Trace Resistance1mΩ to 10Ω typical
ACCURACY±(5% + 500µA). For 1 power line cycle, autozero on, 10-reading digital filter, TCAL ±5°C, 90 days, 1 year or 2 years
TEMPERATURE
Built-in linearization for J, K, N, T, E, R, S, B thermocouple types to ITS-90 and 100O platinum RTDs DIN 43760, IPTS-68, and ITS-90.

Keithley 2002 Product Specifications Summary: (for full specs please see the full specs tab or the data sheet)

Multimeters Template

TypeDigital
StyleBench
Measures AC VYes
Measures DC VYes
Measures DC AYes
True RMS What's This?Yes

Test Equipment General Attributes

Power Supply Voltage120V 50/60 Hz

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