Keithley | SMU 2450 -RE

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Keithley

5" Touchscreen Sourcemeter SMU Instrument, 1 channel, 10nV-200 V, 10fA-1A, 20 W max - demo as new

Code :
KEI2450-RE
Brand :
Keithley
Serie :
Re, 2400, 2450, TTDeals
Manufacturer Ref. :
SMU 2450 -RE
Order Ref. :
2450 (Re)
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Demonstration product !
State: As New .
Missing: Calibration certificate.
Limited stock !
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Capabilities of analyzers, curve tracers and I-V systems at a fraction of theirs cost
Five-inch, high resolution capacitive touchscreen GUI
0.012% basic measure accuracy with 6½-digit resolution
Enhanced sensitivity with new 20mV and 10nA source/measure ranges
Source and sink (4-quadrant) operation
Four Quickset modes for fast setup and measurements
Built-in, context-sensitive front panel help
Front panel input banana jacks; rear panel input triaxial connections
Refer to a friend
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667-Power/Channel : 20 W
668-Min Current/Channel : 10 fA
669-Max Current/Channel : 1 A
670-Min Voltage : 10 nV
671-Max Voltage : 200 V
672-TSP-Link Technology : Yes
501-Programming interfaces : USB
GPIB
673-Contact Check : No
36-Additional Characteristics : Front Panel: Banana, Rear Panel: Triax
132-Package includes : 2450, test leads, USB cable, Ethernet/TSP cable, InterLock adapter, power cord, quick start guide, user manual on CD-ROM, KickStart PC software
35-Dimension (HxWxD) (mm) : 106x255x425 mm
13-Net Weight : 3.58 kg
41-Standard Manufacturer Warranty : 6 MONTHES
Promotion-asuppr :
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The Model 2450 is Keithley's next-generation SourceMeter source measure unit (SMU) Instrument that truly brings Ohm's law (current, voltage, and resistance) testing right to your fingertips. Its innovative graphical user interface (GUI) and advanced, capacitive touchscreen technology allow intuitive usage and minimize the learning curve to enable engineers and scientists to learn faster, work smarter, and invent easier. The 2450 is the SMU for everyone: a versatile instrument, particularly well-suited for characterising modern scaled semiconductors, nano-scale devices and materials , organic semiconductors, printed electronics, and other small-geometry and low-power devices.

DC Power specifications

Voltage

Current

Maximum output

power and source

limits

20 W maximum

- ± 21 V (≤ 1 A range)

- ± 210 V (≤ 100 mA range)

- Four-quadrant source or sink operation

20 W maximum

- ± 1.05 A (≤ 20 V range)

- ± 105 mA (≤ 200 V range)

- Four-quadrant source or sink operation

 

VOLTAGE SPECIFICATIONS1,2

Source

Measure3

Range

Resolution

Accuracy

23 °C ± 5 °C 1 year

± (% setting + volts)

Noise

(RMS)

<10Hz

Resolution

Input

resistance

Accuracy

23 °C ± 5 °C 1 year

± (% reading + volts)

20.00000 mV

500 nV

0.100 % + 200 µV

1 µV

10 nV

> 10 GΩ

0.100 % + 150 µV

20.00000 mV

5 µV

0.015 % + 200 µV

1 µV

100 nV

> 10 GΩ

0.012 % + 200 µV

20.00000 mV

50 µV

0.020 % + 300 µV

10 µV

1 µV

> 10 GΩ

0.012 % + 300 µV

20.00000 mV

500 µV

0.015 % + 2.4 mV

100 µV

10µV

> 10 GΩ

0.015 % + 1 mV

20.00000 mV

5 mV

0.015 % + 24 mV

1 mV

100 µV

> 10 GΩ

0.015 % + 10 mV

CURRENT SPECIFICATIONS1,2

Source

Measure3

Range

Resolution

Accuracy4

23 °C ± 5 °C 1 year

± (% setting + amps)

Noise

(RMS)

<10Hz

Resolution

Voltage

burden

Accuracy

23 °C ± 5 °C

1 year

± (% reading + amps)

10.00000 nA5

500 fA

0.100 % + 100 pA

500 fA

10 fA

< 100 µV

0.10 % + 50 pA

100.00000 nA5

5 pA

0.060 % + 150 pA

500 fA

100 fA

< 100 µV

0.060 % + 100 pA

1.000000 µA

50 pA

0.025 % + 400 pA

5 pA

1 pA

< 100 µV

0.025 % + 300 pA

10.00000 µA

500 pA

0.025 % + 1.5 nA

40 pA

10 pA

< 100 µV

0.025 % + 700 pA

100.0000 µA

5 nA

0.020 % + 15 nA

400 pA

100 pA

< 100 µV

0.02% + 6 nA

1.000000 mA

50 nA

0.020 % + 150 nA

5 nA

1 nA

< 100 µV

0.02 % + 60 nA

10.00000 mA

500 nA

0.020 % + 1.5 μA

40 nA

10 nA

< 100 µV

0.02 % + 600 nA

100.0000 mA

5 µA

0.025 % + 15 μA

100 nA

100 nA

< 100 µV

0.025 % + 6 μA

1.000000 A

50 µA

0.067 % + 900 μA

3 μA

1 µA

< 100 µV

0.03 % + 500 μA

1.Speed = 1 PLC. 
2.All specifications are guaranteed with output ON.
3.Accuracies apply to 2-wire and 4-wire modes when properly zeroed.
4.For sink mode, 1 µA to 100 mA range accuracy is: ± (0.15 % + offset × 4). For 1 A range, accuracy is: ± (1.5 % + offset × 8).
5.Rear-panel triaxial connections only.

TYPICAL APPLICATIONS

Ideal for current/voltage characterization and functional test of a wide range of today's modern electronics and devices, including:

  • Nanomaterials and Devices

           - Graphene

           - Carbone nanotubes

           - Nanowires

           - Low power nanostructures

  • Semiconductor Structures

           - Wafers

           - Thins films

  • Organic Materials and Devices

           - E-inks

           - Printable electronics

  • Energy Efficiency and Lighting

            - LEDs/AMOLEDS

            - Photovoltaics/Solar Cells

            - Batteries

  • Discrete and Passive Compenents

            - Two-leaded: resistors, diode, zener diodes, LEDs, disk drive heads, sensors

            - Three-leaded: Small signal bipolar junction transistors (BJTs), field effect transistors (FETs), and more

  • Material characterization

             - Resistivity

             - Hall Effect

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