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ADP5250 Analog Discovery Pro: All-In-One 1GS/s 100MHz Mixed Signal Oscilloscope, Function Generator, Power Supply, And DMM

ADP5250  Analog Discovery Pro: All-In-One 1GS/s 100MHz Mixed Signal Oscilloscope, Function Generator, Power Supply, and DMM
£2,13900

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Model:ADP5250
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Description

The ADP5250 brings higher sample rate and bandwidth and a more rugged design to the Analog Discovery Pro family, keeping our free highly rated WaveForms application software at the controls.

Higher Sample Rate and Bandwidth Mixed Signal Oscilloscope

Designed to combine a complete set of instruments into a flexible and programmable device, the ADP5250 features a mixed-signal oscilloscope with two 100 MHz, up to 1 GS/s analog input channels, one waveform generator with up to with up to 20 MHz sine output, 34 digital channels at a sample rate of up to 100 MS/s, a tri-output power supply capable of up to 25 V, an external trigger, and a built-in programmable DMM.

Ultimate All-In-One Test System

Analog Discovery Pro devices feature a variety of advanced triggering options. Instruments within WaveForms can be cross-triggered, for example, by activating an oscilloscope capture based on a received and decoded digital protocol.

In addition, external signals can trigger events using the dedicated external trigger input/output. Our free WaveForms software provides these features configurable in the instruments themselves, or for more control or automation in one of the available scripting interfaces. The following instruments are available in the WaveForms application for the ADP5250:

·         Oscilloscope

·         Logic Analyzer

·         Waveform Generator

·         Static I/O

·         Power Supplies

·         Spectrum Analyzer

·         DMM

·         Network Analyzer

 

·         Impedance Analyzer

Note: The ADP5250 is Windows® only. 

WaveForms Software Applications

WaveForms is the free software application for the ADP5250 and enables use of the available analog and digital instruments. The software has been refined by customer feedback for over 10 years and features a computer and laptop friendly user interface that has the feel of traditional benchtop software. The device communicates with WaveForms via a USB connection to your computer, allowing users to capture, record, analyze, and generate mixed signal and mixed domain waveforms. WaveForms can be downloaded and installed in under 60 seconds and can be tested without hardware using its demo mode feature. In addition to the use of instruments in the application, the WaveForms application has a script editor tool, which allows custom scripting of the instrument in JavaScript. WaveForms is designed to be run on a laptop or desktop computer.

For even more customization potential, the WaveForms Software Development Kit (SDK) can be used to create custom applications and scripts in Python®, C, and additional languages. While not officially supported, the ADP5250 is also compatible with NI's VirtualBench C API and VirtualBench LabVIEW™ VIs..

What’s included:

  • ADP5250 
  • 1 USB A to B cable 
  • 1 1x14 Digital I/O Screw Terminal Adapter 
  • 1 1x6 Power Supply Screw Terminal Adapter 
  • 1 2x18 Logic Analyzer MTE Cable 
  • 1 US IEC Cable 
  • 1 EU Adapter 
  • 1 UK Adapter 

Features

Analog Inputs:

  • Used in the Oscilloscope, Network Analyzer, Spectrum Analyzer, and Impedance Analyzer
  • Two analog input channels accessible via front panel BNC connectors
  • Channel type: single ended
  • Analog bandwidth: 100 MHz @ 3 dB
  • 8-bit resolution
  • Max sampling rate: 1 GS/s single channel
  • Maximum input range: 40V peak to peak
  • AC or DC coupling
  • Maximum record length: 1 MS per channel

Analog Outputs:

  • Used in the Waveform Generator, Impedance Analyzer, and Network Analyzer
  • One channel accessible via a front panel BNC connector
  • 14-bit resolution
  • AC amplitude (max): ±12 V
  • Maximum analog bandwidth: 50 MHz @ 3 dB
  • Maximum sampling rate: 125 MS/s

Digital Inputs: 

  • Used in the Logic Analyzer  
  • Channels: 34 
  • Input voltage: 0V to 5 V 
  • Input threshold: 0 to 2 V 
  • Max sampling rate: 100 MS/s 
  • Typical record length: 1 MS 

Digital Inputs and Outputs:

  • Used in the Static I/O instrument 
  • Channels: 8 
  • Input logic standard: 5 V compatible TTL 
  • Output logic standard: 3.3 V LVTTL  

Advanced Triggering:

  • Trigger sources: oscilloscope analog channels, function generator start, digital inputs, digital I/O, power line frequency, external trigger 
  • Trigger modes
    • Normal, auto, force, single 
  • Analog trigger 
  • Edge with hysteresis 
  • Edge, level, pattern, glitch 
  • 5V compatible TTL input or 3.3V LVLTTL output 
  • 4 mA drive strength 
  • Digital trigger 
  • External trigger: 

Power Supplies:

  • Digital supply: 3.3 V, 20 mA
  • DC power supplies:
    • 0 to 6 V variable, 1 A max current 
    • 0 to 25 V variable, 500 mA max current (isolated) 
    • 0 to -25 V variable, 500 mA max current (isolated) 

Connectivity:

  • Device to computer: USB 2.0 Hi-Speed 

Other:

  • Auxiliary powered 
  • Shock and vibration tested (details in the specification sheet) 

Digital Multimeter:

  • Used in the DMM instrument
  • Functions: DC voltage, AC voltage, DC current, AC current, resistance, diode, continuity
  • Resolution: 5 1/2 digits
  • Sample rate 5 S/s
  • Input protection:
    • Resistance, diode: up to 300 V DC
    • DC and AC voltage: up to 300 V DC or 265 VAC (rms) 400 V AC (peak)
    • DMM A current connector fuse: internal ceramic fuse, 10 A 250 V, time-delay, 5 x 20 mm, T 10 A H 250 V
    • DMM mA current connector fuse: internal ceramic fuse, 1.25 A 250 V, time-delay, 5 x 20 mm, T 1.25 A H 250 V
    • Maximum common-mode voltage: 300 V DC or AC (rms)

Specifications

These specifications are valid following 30 minutes of warmup and are typical at 25 °C unless otherwise noted.

Mixed Signal Oscilloscope

Analog Input Channels

Supports the Oscilloscope, Data Logger, Spectrum Analyzer, Network Analyzer, Impedance Analyzer, and Script Editor instruments.

Vertical System

Number of Channels

2 single ended, non-isolated

Bandwidth (-3 dB)

100 MHz

Resolution

8 bits

Accuracy

±2% of input ±1% full scale (V peak to peak)

Input Coupling

AC, DC

Vertical Sensitivity (range)

10 mV / div (100 mV peak to peak)
20 mV / div (200 mV peak to peak)
50 mV / div (400 mV peak to peak)
100 mV / div (1 V peak to peak)
200 mV / div (2 V peak to peak)
500 mV / div (4 V peak to peak)
1 V / div (10 V peak to peak)
2 V / div (20 V peak to peak)
5 V / div (40 V peak to peak)

Input Impedance

1 MΩ ││ 20 pF

Acquisition Modes

Sample, peak detect, averaging

DC Offset Range

10 mV/div, 20 mV/div, 50 mV/div ranges: ±5 V
100 mV/div, 200 mV/div, 50 mV/div, 1 V/div, 2 V/div, 5 V/div ranges: ±20 V

Horizontal System

Maximum Sampling Rate

1 GS/s single channel
500 MS/s per channel, dual channel

Maximum Record Length

1 MS per channel

Digital Channels / Logic Analyzer

Supports the Logic Analyzer and Script Editor instruments.

 

Vertical System

Number of Channels

34 (1)

Maximum Input Frequency

100 MHz

Input Voltage

0 V to 5 V

Input Current

≤50 µA

Input Threshold

Programmable, 0 V to 2.0 V

Threshold Accuracy

350 mV

Input Impedance

100 kΩ ││ 7.5 pF pulled to -2.0 V to +6.5 V, varies with input threshold setting

Additional / Internal Channels

Digital I/O lines, function generator start, external trigger (TRIG), power line frequency

Note: Mixed signal oscilloscope digital channels are designed to withstand accidental overvoltage from signals on the ADP5250. They are not recommended for use with signals likely to exceed 0 V to 5 V in normal operation.

1) At time of writing, WaveForms software does not support use of the CLK0/CLK1 lines. All 32 DIO pins are fully supported.

Horizontal System

Timing Mode Sample Rate

1 GS/s (down to ~15 kS/s)

Maximum External Sample Clock Rate

100 MHz

Record Length (Typical)

1 MS

Record Length (Minimum)

4 kS

Decimation

External Sample Clock, 1:1, 2:1, and n*4:1 where n is an integer

Maximum Sample Compression

215 to 1

Triggering

Trigger Modes Normal, Auto, Force, Single
Trigger Sources Oscilloscope analog channels
Oscilloscope digital channels
Function generator start
Digital I/O lines
External trigger (TRIG)
Power line frequency
Trigger Types Analog Edge with hysteresis

Digital

Edge, pattern, glitch, level

Trigger Resolution

Analog / Oscilloscope

667 ps

Digital / Logic Analyzer

1 ns

Trigger Export

Available through external trigger (TRIG)

Waveform Generator (WaveGen)

Supports the Waveform Generator, Network Analyzer, Impedance Analyzer, and Script Editor instruments.

Waveforms

Sine, square, ramp / triangle, DC, arbitrary

Update Rate

125 MS/s

Resolution

14 bits

Number of Channels

1

Output Impedance

50 Ω

Switchable Filter

36 MHz lowpass, 7-pole, elliptical

Sine

Maximum Frequency

20 MHz

Total Harmonic Distortion (1 MHz)

-55 dBc

Total Harmonic Distortion (10 MHz)

-50 dBc

Spurious Free Dynamic Range (SFDR)

-70 dB at 1 MHz (non-harmonic)

Phase Noise (1 MHz)

-115 dBc/Hz at 10 kHz offset

Square

Maximum Frequency

20 MHz

Rise / Fall Time

<20 ns (10% to 90%)

Overshoot

<5%

Jitter

8 ns cycle-to-cycle

Ramp / Triangle Maximum Frequency

20 MHz

Accuracy (with >10 kΩ load)

Amplitude (1 kHz sine)

±(1% of output value ±5 mV)

DC

±(1% of output value ±7.5 mV)

Output Range

50 Ω

±6 V

Hi-Z (>10 kΩ)

±12 V

DC Offset

50 Ω

±6 V

Hi-Z (>10 kΩ)

±12 V

Frequency

Accuracy

≤100 ppm

Resolution

1 µHz

Arbitrary Waveforms

Points

1 MS

Sample Rate

125 MS/s

Protection

Short-circuit protected

Note: The combination of signal amplitude and DC offset cannot exceed the output range specifications. The impedances listed are the loads applied by the user to the Waveform Generator output.

A graph with numbers and a squareDescription automatically generated
 

 

Digital I/O

Supports the Static I/O and Script Editor instruments.

Number of Channels

8

Direction Control

Input or output, software-selectable

Logic Level

5 V compatible TTL input
3.3 V LVTTL output

Drive Strength

4 mA

Input Voltage

0 to 5 V

DIO Channel Pull Resistors

10 kΩ, pull-down on dig/<0..7>
10 kΩ, configurable pull-up to 3.3 V on dig/<6,7>

Note: Digital I/O lines are designed to withstand accidental overvoltage from signals on the ADP5250 or similar devices. They are not recommended for use with signals likely to exceed 0 V to 5 V in normal operation.

Digital Power Supply

Voltage

3.3 V ± 10%

Current

20 mA

Digital Multimeter

Functions

DC Voltage, AC Voltage, DC current, AC current, resistance, diode, continuity

Resolution

5½ digits

Sample Rate

5 S/s

Caution: Do not use this device for connection to signals or for measurements within Measurement Categories III or IV. For more information about Measurement Categories, refer to the Safety Voltages section.

Input Protection

Resistance, Diode

Up to 300 V DC

DC and AC Voltage

Up to 300 V DC or 265 V AC (rms) 400 V AC (peak)

DC and AC Current

DMM A Current Connector Fuse

Internal ceramic fuse, 10 A 250 V, time-delay, 5 x 20 mm, T 10A H 250V (Bussman part number D505H-10-R at www.cooperindustries.com)

DMM mA Current Connector Fuse

Internal ceramic fuse, 1.25 A 250 V, time-delay, 5 x 20 mm, T 1.25A H 250V (Bussman part number S505H-1.25-R at www.cooperindustries.com)

Caution: Fuses are located on bottom of device underneath door. Use Phillips #1 screwdriver for removal. Ensure all hazardous voltages are disconnected from the device prior to removal of door.

Fuse: When the fuse symbol is marked on a device, take proper precautions.

Maximum common-mode voltage

300 V DC or AC (rms)

DC

DC Voltage Accuracy

Range

Input Impedance

1-Year Accuracy ±(% of Reading + % of Range)

Temperature Coefficient ±(% of Reading + % of Range)/C°

100 mV*

<10 GΩ, 10 MΩ

0.015 + 0.005

0.001 + 0.0005

1 V

>10 GΩ, 10 MΩ

0.015 + 0.005

0.001 + 0.0005

10 V

>10 GΩ, 10 MΩ

0.015 +0.005

0.001 + 0.0005

100 V

10 MΩ

0.035 + 0.005

0.001 + 0.0005

300 V

10 MΩ

0.035 + 0.005

0.001 + 0.0005

* Add 15 µV if not immediately following offset null.

DC Current Accuracy

Range

Burden Voltage

1-Year Accuracy ±(% of Reading + % of Range)

Temperature Coefficient ±(% of Reading + % of Range)/C°

10 mA

<0.03 V

0.070 + 0020

0.0035 + 0.0010

100 mA

<0.3 V

0.070 + 0.003

0.0020 + 0.0010

1 A

<0.03 V

0.130 +0.025

0.0065 + 0.0010

10 A*

<0.3 V

0.130 + 0.004

0.0045 + 0.0010

* 30 seconds on, 30 seconds off. Add 300 ppm for currents >2.2 A. After measuring >5 A, Wait two minutes to get full accuracy in the 1 A range.


DC Resistance Accuracy (2-Wire)*, 1V Open Circuit Voltage

Range

Short-Circuit Current

1-Year Accuracy ±(% of Reading + % of Range)

Temperature Coefficient ±(% of Reading + % of Range)/C°

100 Ω

170 µA

0.018 + 0.050

0.0010 + 0.0005

1 kΩ

170 µA

0.018 + 0.005

0.0010 + 0.0005

10 kΩ

70 µA

0.018 + 0.005

0.0010 + 0.0005

100 kΩ

10 µA

0.018 + 0.005

0.0010 + 0.0005

1 MΩ

1.1 µA

0.035 + 0.005

0.0040 + 0.0005

10 MΩ

1.1 µA

0.150 + 0.005

0.0100 + 0.0005

100 MΩ

1.1 µA

1.3 + 0.005

0.1000 + 0.0005

* Perform offset nulling

Caution: The input terminals of the DMM are not protected for electromagnetic interference. As a result, the DMM may experience reduced measurement accuracy or other temporary performance degradation when connected to unshielded test leads in an environment with radiated or conducted radio frequency electromagnetic interference.

DC Continuity Accuracy Range

100 Ω

DC Diode Test Range

2 V

Effective Common-Mode Rejection-Mode Ratio (CMRR), 1 kΩ resistance in LO lead

>100 dB

Normal-Mode Rejection Ratio (NMRR), 50/60 Hz ± 0.1%

>100 dB

Overrange

105% of range except 300 V

AC

AC Voltage Accuracy

Range (rms)

Peak Voltage

Frequency

1-Year Accuracy ±(% of Reading + % of Range)

Temperature Coefficient ±(% of Reading + % of Range)/C°

100 mV, 1 V, 10 V, 100 V, 265 V

±210 mV, ±2.1 V, ±21 V, ±210 V, ±400 V

20 Hz to 45 Hz

0.91 + 0.10

0.01 + 0.005

45 Hz to 65 Hz

0.30 + 0.05

0.01 + 0.005

65 Hz to 1 kHz

0.21 + 0.05

0.01 + 0.005

1 kHz to 5 kHz

0.12 + 0.05

0.01 + 0.005

5 kHz to 20 kHz

0.35 + 0.05

0.01 + 0.005

AC Current Accuracy

Range

Short-Circuit Current

Burden Voltage (rms)

Frequency

1-Year Accuracy ±(% of Reading + % of Range)

Temperature Coefficient ±(% of Reading + % of Range)/C°

5 mA

±10.5 mA

<0.02

20 Hz to 1 kHz

0.20 + 0.01

0.01 + 0.005

5 mA

±10.5 mA

<0.02

1 kHz to 5 kHz

0.60 + 0.01

0.01 + 0.005

50 mA

±105 mA

<0.2 V

20 Hz to 1 kHz

0.20 + 0.01

0.01 + 0.005

50 mA

±105 mA

<0.2 V

1 kHz to 5 kHz

0.50 + 0.01

0.01 + 0.005

500 mA

±1.05 A

<0.02 V

20 Hz to 1 kHz

0.15 + 0.01

0.01 + 0.005

500 mA

±1.05 A

<0.02 V

1 kHz to 5 kHz

0.50 + 0.01

0.01 + 0.005

5 A

±1.05 A

<0.02 V

20 Hz to 1 kHz

0.25 + 0.03

0.01 + 0.005

5 A

±1.05 A

<0.02 V

1 kHz to 5 kHz

0.60 + 0.03

0.01 + 0.005

DC Power Supply

Outputs

0 V to +6 V

0 A to 1 A

0 V to +25 V

0 mA to 500 mA (isolated)

0 V to -25 V

0 mA to 500 mA (isolated)

Note: the +25 V and –25 V channels are bank isolated from ground but not from each other.

DC Accuracy / Resolution

Output

Type

+6 V

+25 V

-25 V

DC Output

Voltage

0 V to +6 V

0 V to +25 V

0 V to -25 V

Current

1 A

500 mA

500 mA

Programming Accuracy, ±(% of reading + offset)

Voltage

0.1% + 5 mV

0.15% + 20 mV

0.15% + 20 mV

Current

0.2% + 10 mA

0.15% + 4 mA

0.15 + 4 mA

Readback Accuracy, ±(% of reading + offset)

Voltage

0.1% + 5 mV

0.15% + 20 mV

0.15% + 20 mV

Current

0.2% + 10 mA

0.15% + 4 mA

0.15% + 4 mA

Programming Resolution

Voltage

1.7 mV

6.5 mV

6.5 mV

Current

0.30 mA

0.15 mA

0.15 mA

Readback Resolution

Voltage

0.41 mV

1.7 mV

1.7 mV

Current

70 µA

35 µA

35 µA

Load Regulation ±(% of reading + offset)

Voltage

0.01% + 25 mV

0.03% + 5 mV

0.03% + 5 mV

 

Overvoltage Protection

30 V (25 V channels) and 10 V (6 V channel)

Reverse Voltage Protection

Reverse clamp diode, protected by self-resetting fuse

 

Technical

External Trigger (TRIG)

Direction Control

Input or output, software-selectable

Logic Level

5 V compatible TTL input, 3.3 V LVLTTL output

Drive Strength

4 mA

Input Voltage

0 V to 5 V

Note: The external trigger line is designed to withstand accidental overvoltage from signals on the ADP5250 or similar devices. It is not recommended for use with signals likely to exceed 0 V to 5 V in normal operation.

 

Features

Spectrum Analyzer

Frequency Range

DC to maximum bandwidth of scope

Display Modes

Magnitude, average, peak hold, min hold, count

Y Axis

Logarithmic (dbV, dBu, dBm) or linear (volts)

X Axis

Linear or logarithmic

Windowing Functions

Rectangular, Triangular, Hamming, Hann, Cosine, Blackman-Harris, Flat Top, Kaiser

Network Analyzer

Frequency Range

1 mHz to 10 MHz, up to 10k samples per decade

Display Modes

Magnitude, Phase

Y Axis

Linear or logarithmic

X Axis

Linear or logarithmic

Plots

Time, FFT, Nichols, Nyquist

Math Channels

Operations

addition “+”, subtraction “-”, multiplication “*”, division “/”, reminder “%”.

Brackets

parentheses (), square brackets []

Constants

Exp, Ln, Log, Pi

Functions

Logarithm, power, minimum, maximum, square root, sine, cos, tan, arccos, arctan, arctan2, absolute value, round, floor, ceil

Operands

All analog and digital input channels, reference waveforms, time, constants, Pi

Automatic Measurements (Analog Channels Only)

Oscilloscope Mode

DC to maximum bandwidth of scope

Spectrum Mode

Magnitude, average, peak hold, min hold, count

Statistics

Logarithmic (dbV, dBu, dBm,) or linear (volts)

Connectivity

Wired USB Interface

USB Specification

USB 2.0 Hi-Speed

Power Requirements

Voltage Input Range

100 V AC to 240 V AC, ±10%, 50/60 Hz

Power Consumption

100 W maximum

Power Input Connector

IEC C13 power connector

Power Disconnect

The AC power cable provides main power disconnect. Do not position the equipment so that it is difficult to disconnect the power cable. Depressing the front panel power button does not inhibit the internal power supply.

Physical Characteristics

Enclosure

25.40 cm x 19.05 cm x 7.77 cm
(10.00 in x 7.50 in x 3.06 in)

Weight

2.05 kg (4 lb 8.3 oz)

Security Cable Slot

1, complies with Kensington security slot dimensions

Note: If the device needs to be cleaned, wipe with a dry towel.

Note: Use the ADP5250 in a horizontal orientation. Allow at least 10.16 cm (4.0 in.) of clearance in front and behind the ADP5250 for USB, power, and common connector cabling.

Safety Voltages

Connect only voltages that are within these limits.

DMM Isolation Voltages (Ground to Earth)

A black background with a black squareDescription automatically generated with medium confidence

Hazardous Voltage: This icon denotes a warning advising you to take precautions to avoid electrical shock.

Channel-to-earth Ground

Continuous

300 V, Measurement Category II

Withstand

3000 V (RMS), verified by a 5 s dielectric withstand test

Measurement Category II is for measurements performed on circuits directly connected to the electrical distribution system. This category refers to local-level electrical distribution, such as that provided by a standard wall outlet, for example, 115 V for U.S. or 230 V for Europe.

A black background with a black squareDescription automatically generated with medium confidence

Caution: Do not connect the ADP5250 hardware to signals or use for measurements within Measurement Categories III or IV.

DC Power Supply Isolation Voltages

+25V and -25V to earth ground, continuous

60 VDC, Measurement Category 1

Note: Measurement Categories CAT I and CAT O (Other) are equivalent. The input circuits are not intended for direct connection to the MAINs building installations of Categories CAT II, CAT III, or CAT IV.

Environmental

Operating Temperature

0 °C to 40 °C

Storage Temperature

-20 °C to 60 °C

Operating Humidity

10% to 90% RH, non-condensing
DMM full accuracy at 10% to 80%

Storage Humidity

5% to 95% RH, non-condensing

Cooling

Forced air circulation (positive pressurization) through a fan. Fan speed automatically adjusts according to operating conditions. Intake and exhaust locations are on rear of device. Ensure that the intake and exhaust locations are not obstructed.

Pollution Degree

2

Maximum Altitude

2,000 m

Note: For indoor use only.

Shock and Vibration

Operational Shock

30 g peak, half sine, 11 ns pulse (Tested in accordance with IEC 60068-2-27. Test profile developed in accordance with MIL-PRF-28800F.)

Random Vibration (Operating)

5 Hz to 500 Hz, 0.3 grms

Random Vibration (Nonoperating)

5 Hz to 500 Hz, 2.4 grms (Tested in accordance with IEC 60068-64. Nonoperating test profile exceeds the requirements of MIL-PRF-28800F, Class 3.)

Safety

This product is designed to meet the requirements of the following electrical equipment safety standards for measurement, control, and laboratory use:

  • IEC 61010-1, EN 61010-1
  • UL 61010-1, CSA 61010-1

Electromagnetic Compatibility

This product meets the requirements of the following EMC standards for electrical equipment for measurement, control, and laboratory use; for radio equipment; and for telecommunication terminal equipment:

  • EN 61326-1 (IEC 61326-1): Class A emissions; Basic immunity
  • EN 55011 (CISPR 11): Group 1, Class A emissions
  • EN 55022 (CISPR 22): Class A emissions
  • EN 55024 (CISPR 24): Immunity
  • AS/NZS CISPR 11: Group 1, Class A emissions
  • AS/NZS CISPR 22: Class A emissions
  • FCC 47 CFR Part 15B: Class A emissions
  • ICES-001: Class A emissions

Note: In the United States (per FCC 47 CFR), Class A equipment is intended for use in commercial, light-industrial, and heavy-industrial locations. In Europe, Canada, Australia, and New Zealand (per CISPR 11) Class A equipment is intended for use only in heavy-industrial locations.

Note: Group 1 equipment (per CISPR 11) is any industrial, scientific, or medical equipment that does not intentionally generate radio frequency energy for the treatment of material or inspection/analysis purposes.

CE Compliance

This product meets the essential requirements of applicable European Directives, as follows:

  • 2014/35/EU; Low-Voltage Directive (safety)
  • 2014/30/EU; Electromagnetic Compatibility Directive (EMC)

 

  • These specifications are valid following 30 minutes of warmup and are typical at 25 °C unless otherwise noted.

Description

The ADP5250 brings higher sample rate and bandwidth and a more rugged design to the Analog Discovery Pro family, keeping our free highly rated WaveForms application software at the controls.

Higher Sample Rate and Bandwidth Mixed Signal Oscilloscope

Designed to combine a complete set of instruments into a flexible and programmable device, the ADP5250 features a mixed-signal oscilloscope with two 100 MHz, up to 1 GS/s analog input channels, one waveform generator with up to with up to 20 MHz sine output, 34 digital channels at a sample rate of up to 100 MS/s, a tri-output power supply capable of up to 25 V, an external trigger, and a built-in programmable DMM.

Ultimate All-In-One Test System

Analog Discovery Pro devices feature a variety of advanced triggering options. Instruments within WaveForms can be cross-triggered, for example, by activating an oscilloscope capture based on a received and decoded digital protocol.

In addition, external signals can trigger events using the dedicated external trigger input/output. Our free WaveForms software provides these features configurable in the instruments themselves, or for more control or automation in one of the available scripting interfaces. The following instruments are available in the WaveForms application for the ADP5250:

·         Oscilloscope

·         Logic Analyzer

·         Waveform Generator

·         Static I/O

·         Power Supplies

·         Spectrum Analyzer

·         DMM

·         Network Analyzer

 

·         Impedance Analyzer

Note: The ADP5250 is Windows® only. 

WaveForms Software Applications

WaveForms is the free software application for the ADP5250 and enables use of the available analog and digital instruments. The software has been refined by customer feedback for over 10 years and features a computer and laptop friendly user interface that has the feel of traditional benchtop software. The device communicates with WaveForms via a USB connection to your computer, allowing users to capture, record, analyze, and generate mixed signal and mixed domain waveforms. WaveForms can be downloaded and installed in under 60 seconds and can be tested without hardware using its demo mode feature. In addition to the use of instruments in the application, the WaveForms application has a script editor tool, which allows custom scripting of the instrument in JavaScript. WaveForms is designed to be run on a laptop or desktop computer.

For even more customization potential, the WaveForms Software Development Kit (SDK) can be used to create custom applications and scripts in Python®, C, and additional languages. While not officially supported, the ADP5250 is also compatible with NI's VirtualBench C API and VirtualBench LabVIEW™ VIs..

What’s included:

Features

Analog Inputs:

Analog Outputs:

Digital Inputs: 

Digital Inputs and Outputs:

Advanced Triggering:

Power Supplies:

Connectivity:

Other:

Digital Multimeter:

Specifications

These specifications are valid following 30 minutes of warmup and are typical at 25 °C unless otherwise noted.

Mixed Signal Oscilloscope

Analog Input Channels

Supports the Oscilloscope, Data Logger, Spectrum Analyzer, Network Analyzer, Impedance Analyzer, and Script Editor instruments.

Vertical System

Number of Channels

2 single ended, non-isolated

Bandwidth (-3 dB)

100 MHz

Resolution

8 bits

Accuracy

±2% of input ±1% full scale (V peak to peak)

Input Coupling

AC, DC

Vertical Sensitivity (range)

10 mV / div (100 mV peak to peak)
20 mV / div (200 mV peak to peak)
50 mV / div (400 mV peak to peak)
100 mV / div (1 V peak to peak)
200 mV / div (2 V peak to peak)
500 mV / div (4 V peak to peak)
1 V / div (10 V peak to peak)
2 V / div (20 V peak to peak)
5 V / div (40 V peak to peak)

Input Impedance

1 MΩ ││ 20 pF

Acquisition Modes

Sample, peak detect, averaging

DC Offset Range

10 mV/div, 20 mV/div, 50 mV/div ranges: ±5 V
100 mV/div, 200 mV/div, 50 mV/div, 1 V/div, 2 V/div, 5 V/div ranges: ±20 V

Horizontal System

Maximum Sampling Rate

1 GS/s single channel
500 MS/s per channel, dual channel

Maximum Record Length

1 MS per channel

Digital Channels / Logic Analyzer

Supports the Logic Analyzer and Script Editor instruments.

 

Vertical System

Number of Channels

34 (1)

Maximum Input Frequency

100 MHz

Input Voltage

0 V to 5 V

Input Current

≤50 µA

Input Threshold

Programmable, 0 V to 2.0 V

Threshold Accuracy

350 mV

Input Impedance

100 kΩ ││ 7.5 pF pulled to -2.0 V to +6.5 V, varies with input threshold setting

Additional / Internal Channels

Digital I/O lines, function generator start, external trigger (TRIG), power line frequency

Note: Mixed signal oscilloscope digital channels are designed to withstand accidental overvoltage from signals on the ADP5250. They are not recommended for use with signals likely to exceed 0 V to 5 V in normal operation.

1) At time of writing, WaveForms software does not support use of the CLK0/CLK1 lines. All 32 DIO pins are fully supported.

Horizontal System

Timing Mode Sample Rate

1 GS/s (down to ~15 kS/s)

Maximum External Sample Clock Rate

100 MHz

Record Length (Typical)

1 MS

Record Length (Minimum)

4 kS

Decimation

External Sample Clock, 1:1, 2:1, and n*4:1 where n is an integer

Maximum Sample Compression

215 to 1

Triggering

Trigger Modes Normal, Auto, Force, Single
Trigger Sources Oscilloscope analog channels
Oscilloscope digital channels
Function generator start
Digital I/O lines
External trigger (TRIG)
Power line frequency
Trigger Types Analog Edge with hysteresis

Digital

Edge, pattern, glitch, level

Trigger Resolution

Analog / Oscilloscope

667 ps

Digital / Logic Analyzer

1 ns

Trigger Export

Available through external trigger (TRIG)

Waveform Generator (WaveGen)

Supports the Waveform Generator, Network Analyzer, Impedance Analyzer, and Script Editor instruments.

Waveforms

Sine, square, ramp / triangle, DC, arbitrary

Update Rate

125 MS/s

Resolution

14 bits

Number of Channels

1

Output Impedance

50 Ω

Switchable Filter

36 MHz lowpass, 7-pole, elliptical

Sine

Maximum Frequency

20 MHz

Total Harmonic Distortion (1 MHz)

-55 dBc

Total Harmonic Distortion (10 MHz)

-50 dBc

Spurious Free Dynamic Range (SFDR)

-70 dB at 1 MHz (non-harmonic)

Phase Noise (1 MHz)

-115 dBc/Hz at 10 kHz offset

Square

Maximum Frequency

20 MHz

Rise / Fall Time

<20 ns (10% to 90%)

Overshoot

<5%

Jitter

8 ns cycle-to-cycle

Ramp / Triangle Maximum Frequency

20 MHz

Accuracy (with >10 kΩ load)

Amplitude (1 kHz sine)

±(1% of output value ±5 mV)

DC

±(1% of output value ±7.5 mV)

Output Range

50 Ω

±6 V

Hi-Z (>10 kΩ)

±12 V

DC Offset

50 Ω

±6 V

Hi-Z (>10 kΩ)

±12 V

Frequency

Accuracy

≤100 ppm

Resolution

1 µHz

Arbitrary Waveforms

Points

1 MS

Sample Rate

125 MS/s

Protection

Short-circuit protected

Note: The combination of signal amplitude and DC offset cannot exceed the output range specifications. The impedances listed are the loads applied by the user to the Waveform Generator output.

A graph with numbers and a squareDescription automatically generated
 

 

Digital I/O

Supports the Static I/O and Script Editor instruments.

Number of Channels

8

Direction Control

Input or output, software-selectable

Logic Level

5 V compatible TTL input
3.3 V LVTTL output

Drive Strength

4 mA

Input Voltage

0 to 5 V

DIO Channel Pull Resistors

10 kΩ, pull-down on dig/<0..7>
10 kΩ, configurable pull-up to 3.3 V on dig/<6,7>

Note: Digital I/O lines are designed to withstand accidental overvoltage from signals on the ADP5250 or similar devices. They are not recommended for use with signals likely to exceed 0 V to 5 V in normal operation.

Digital Power Supply

Voltage

3.3 V ± 10%

Current

20 mA

Digital Multimeter

Functions

DC Voltage, AC Voltage, DC current, AC current, resistance, diode, continuity

Resolution

5½ digits

Sample Rate

5 S/s

Caution: Do not use this device for connection to signals or for measurements within Measurement Categories III or IV. For more information about Measurement Categories, refer to the Safety Voltages section.

Input Protection

Resistance, Diode

Up to 300 V DC

DC and AC Voltage

Up to 300 V DC or 265 V AC (rms) 400 V AC (peak)

DC and AC Current

DMM A Current Connector Fuse

Internal ceramic fuse, 10 A 250 V, time-delay, 5 x 20 mm, T 10A H 250V (Bussman part number D505H-10-R at www.cooperindustries.com)

DMM mA Current Connector Fuse

Internal ceramic fuse, 1.25 A 250 V, time-delay, 5 x 20 mm, T 1.25A H 250V (Bussman part number S505H-1.25-R at www.cooperindustries.com)

Caution: Fuses are located on bottom of device underneath door. Use Phillips #1 screwdriver for removal. Ensure all hazardous voltages are disconnected from the device prior to removal of door.

Fuse: When the fuse symbol is marked on a device, take proper precautions.

Maximum common-mode voltage

300 V DC or AC (rms)

DC

DC Voltage Accuracy

Range

Input Impedance

1-Year Accuracy ±(% of Reading + % of Range)

Temperature Coefficient ±(% of Reading + % of Range)/C°

100 mV*

<10 GΩ, 10 MΩ

0.015 + 0.005

0.001 + 0.0005

1 V

>10 GΩ, 10 MΩ

0.015 + 0.005

0.001 + 0.0005

10 V

>10 GΩ, 10 MΩ

0.015 +0.005

0.001 + 0.0005

100 V

10 MΩ

0.035 + 0.005

0.001 + 0.0005

300 V

10 MΩ

0.035 + 0.005

0.001 + 0.0005

* Add 15 µV if not immediately following offset null.

DC Current Accuracy

Range

Burden Voltage

1-Year Accuracy ±(% of Reading + % of Range)

Temperature Coefficient ±(% of Reading + % of Range)/C°

10 mA

<0.03 V

0.070 + 0020

0.0035 + 0.0010

100 mA

<0.3 V

0.070 + 0.003

0.0020 + 0.0010

1 A

<0.03 V

0.130 +0.025

0.0065 + 0.0010

10 A*

<0.3 V

0.130 + 0.004

0.0045 + 0.0010

* 30 seconds on, 30 seconds off. Add 300 ppm for currents >2.2 A. After measuring >5 A, Wait two minutes to get full accuracy in the 1 A range.


DC Resistance Accuracy (2-Wire)*, 1V Open Circuit Voltage

Range

Short-Circuit Current

1-Year Accuracy ±(% of Reading + % of Range)

Temperature Coefficient ±(% of Reading + % of Range)/C°

100 Ω

170 µA

0.018 + 0.050

0.0010 + 0.0005

1 kΩ

170 µA

0.018 + 0.005

0.0010 + 0.0005

10 kΩ

70 µA

0.018 + 0.005

0.0010 + 0.0005

100 kΩ

10 µA

0.018 + 0.005

0.0010 + 0.0005

1 MΩ

1.1 µA

0.035 + 0.005

0.0040 + 0.0005

10 MΩ

1.1 µA

0.150 + 0.005

0.0100 + 0.0005

100 MΩ

1.1 µA

1.3 + 0.005

0.1000 + 0.0005

* Perform offset nulling

Caution: The input terminals of the DMM are not protected for electromagnetic interference. As a result, the DMM may experience reduced measurement accuracy or other temporary performance degradation when connected to unshielded test leads in an environment with radiated or conducted radio frequency electromagnetic interference.

DC Continuity Accuracy Range

100 Ω

DC Diode Test Range

2 V

Effective Common-Mode Rejection-Mode Ratio (CMRR), 1 kΩ resistance in LO lead

>100 dB

Normal-Mode Rejection Ratio (NMRR), 50/60 Hz ± 0.1%

>100 dB

Overrange

105% of range except 300 V

AC

AC Voltage Accuracy

Range (rms)

Peak Voltage

Frequency

1-Year Accuracy ±(% of Reading + % of Range)

Temperature Coefficient ±(% of Reading + % of Range)/C°

100 mV, 1 V, 10 V, 100 V, 265 V

±210 mV, ±2.1 V, ±21 V, ±210 V, ±400 V

20 Hz to 45 Hz

0.91 + 0.10

0.01 + 0.005

45 Hz to 65 Hz

0.30 + 0.05

0.01 + 0.005

65 Hz to 1 kHz

0.21 + 0.05

0.01 + 0.005

1 kHz to 5 kHz

0.12 + 0.05

0.01 + 0.005

5 kHz to 20 kHz

0.35 + 0.05

0.01 + 0.005

AC Current Accuracy

Range

Short-Circuit Current

Burden Voltage (rms)

Frequency

1-Year Accuracy ±(% of Reading + % of Range)

Temperature Coefficient ±(% of Reading + % of Range)/C°

5 mA

±10.5 mA

<0.02

20 Hz to 1 kHz

0.20 + 0.01

0.01 + 0.005

5 mA

±10.5 mA

<0.02

1 kHz to 5 kHz

0.60 + 0.01

0.01 + 0.005

50 mA

±105 mA

<0.2 V

20 Hz to 1 kHz

0.20 + 0.01

0.01 + 0.005

50 mA

±105 mA

<0.2 V

1 kHz to 5 kHz

0.50 + 0.01

0.01 + 0.005

500 mA

±1.05 A

<0.02 V

20 Hz to 1 kHz

0.15 + 0.01

0.01 + 0.005

500 mA

±1.05 A

<0.02 V

1 kHz to 5 kHz

0.50 + 0.01

0.01 + 0.005

5 A

±1.05 A

<0.02 V

20 Hz to 1 kHz

0.25 + 0.03

0.01 + 0.005

5 A

±1.05 A

<0.02 V

1 kHz to 5 kHz

0.60 + 0.03

0.01 + 0.005

DC Power Supply

Outputs

0 V to +6 V

0 A to 1 A

0 V to +25 V

0 mA to 500 mA (isolated)

0 V to -25 V

0 mA to 500 mA (isolated)

Note: the +25 V and –25 V channels are bank isolated from ground but not from each other.

DC Accuracy / Resolution

Output

Type

+6 V

+25 V

-25 V

DC Output

Voltage

0 V to +6 V

0 V to +25 V

0 V to -25 V

Current

1 A

500 mA

500 mA

Programming Accuracy, ±(% of reading + offset)

Voltage

0.1% + 5 mV

0.15% + 20 mV

0.15% + 20 mV

Current

0.2% + 10 mA

0.15% + 4 mA

0.15 + 4 mA

Readback Accuracy, ±(% of reading + offset)

Voltage

0.1% + 5 mV

0.15% + 20 mV

0.15% + 20 mV

Current

0.2% + 10 mA

0.15% + 4 mA

0.15% + 4 mA

Programming Resolution

Voltage

1.7 mV

6.5 mV

6.5 mV

Current

0.30 mA

0.15 mA

0.15 mA

Readback Resolution

Voltage

0.41 mV

1.7 mV

1.7 mV

Current

70 µA

35 µA

35 µA

Load Regulation ±(% of reading + offset)

Voltage

0.01% + 25 mV

0.03% + 5 mV

0.03% + 5 mV

 

Overvoltage Protection

30 V (25 V channels) and 10 V (6 V channel)

Reverse Voltage Protection

Reverse clamp diode, protected by self-resetting fuse

 

Technical

External Trigger (TRIG)

Direction Control

Input or output, software-selectable

Logic Level

5 V compatible TTL input, 3.3 V LVLTTL output

Drive Strength

4 mA

Input Voltage

0 V to 5 V

Note: The external trigger line is designed to withstand accidental overvoltage from signals on the ADP5250 or similar devices. It is not recommended for use with signals likely to exceed 0 V to 5 V in normal operation.

 

Features

Spectrum Analyzer

Frequency Range

DC to maximum bandwidth of scope

Display Modes

Magnitude, average, peak hold, min hold, count

Y Axis

Logarithmic (dbV, dBu, dBm) or linear (volts)

X Axis

Linear or logarithmic

Windowing Functions

Rectangular, Triangular, Hamming, Hann, Cosine, Blackman-Harris, Flat Top, Kaiser

Network Analyzer

Frequency Range

1 mHz to 10 MHz, up to 10k samples per decade

Display Modes

Magnitude, Phase

Y Axis

Linear or logarithmic

X Axis

Linear or logarithmic

Plots

Time, FFT, Nichols, Nyquist

Math Channels

Operations

addition “+”, subtraction “-”, multiplication “*”, division “/”, reminder “%”.

Brackets

parentheses (), square brackets []

Constants

Exp, Ln, Log, Pi

Functions

Logarithm, power, minimum, maximum, square root, sine, cos, tan, arccos, arctan, arctan2, absolute value, round, floor, ceil

Operands

All analog and digital input channels, reference waveforms, time, constants, Pi

Automatic Measurements (Analog Channels Only)

Oscilloscope Mode

DC to maximum bandwidth of scope

Spectrum Mode

Magnitude, average, peak hold, min hold, count

Statistics

Logarithmic (dbV, dBu, dBm,) or linear (volts)

Connectivity

Wired USB Interface

USB Specification

USB 2.0 Hi-Speed

Power Requirements

Voltage Input Range

100 V AC to 240 V AC, ±10%, 50/60 Hz

Power Consumption

100 W maximum

Power Input Connector

IEC C13 power connector

Power Disconnect

The AC power cable provides main power disconnect. Do not position the equipment so that it is difficult to disconnect the power cable. Depressing the front panel power button does not inhibit the internal power supply.

Physical Characteristics

Enclosure

25.40 cm x 19.05 cm x 7.77 cm
(10.00 in x 7.50 in x 3.06 in)

Weight

2.05 kg (4 lb 8.3 oz)

Security Cable Slot

1, complies with Kensington security slot dimensions

Note: If the device needs to be cleaned, wipe with a dry towel.

Note: Use the ADP5250 in a horizontal orientation. Allow at least 10.16 cm (4.0 in.) of clearance in front and behind the ADP5250 for USB, power, and common connector cabling.

Safety Voltages

Connect only voltages that are within these limits.

DMM Isolation Voltages (Ground to Earth)

A black background with a black squareDescription automatically generated with medium confidence

Hazardous Voltage: This icon denotes a warning advising you to take precautions to avoid electrical shock.

Channel-to-earth Ground

Continuous

300 V, Measurement Category II

Withstand

3000 V (RMS), verified by a 5 s dielectric withstand test

Measurement Category II is for measurements performed on circuits directly connected to the electrical distribution system. This category refers to local-level electrical distribution, such as that provided by a standard wall outlet, for example, 115 V for U.S. or 230 V for Europe.

A black background with a black squareDescription automatically generated with medium confidence

Caution: Do not connect the ADP5250 hardware to signals or use for measurements within Measurement Categories III or IV.

DC Power Supply Isolation Voltages

+25V and -25V to earth ground, continuous

60 VDC, Measurement Category 1

Note: Measurement Categories CAT I and CAT O (Other) are equivalent. The input circuits are not intended for direct connection to the MAINs building installations of Categories CAT II, CAT III, or CAT IV.

Environmental

Operating Temperature

0 °C to 40 °C

Storage Temperature

-20 °C to 60 °C

Operating Humidity

10% to 90% RH, non-condensing
DMM full accuracy at 10% to 80%

Storage Humidity

5% to 95% RH, non-condensing

Cooling

Forced air circulation (positive pressurization) through a fan. Fan speed automatically adjusts according to operating conditions. Intake and exhaust locations are on rear of device. Ensure that the intake and exhaust locations are not obstructed.

Pollution Degree

2

Maximum Altitude

2,000 m

Note: For indoor use only.

Shock and Vibration

Operational Shock

30 g peak, half sine, 11 ns pulse (Tested in accordance with IEC 60068-2-27. Test profile developed in accordance with MIL-PRF-28800F.)

Random Vibration (Operating)

5 Hz to 500 Hz, 0.3 grms

Random Vibration (Nonoperating)

5 Hz to 500 Hz, 2.4 grms (Tested in accordance with IEC 60068-64. Nonoperating test profile exceeds the requirements of MIL-PRF-28800F, Class 3.)

Safety

This product is designed to meet the requirements of the following electrical equipment safety standards for measurement, control, and laboratory use:

Electromagnetic Compatibility

This product meets the requirements of the following EMC standards for electrical equipment for measurement, control, and laboratory use; for radio equipment; and for telecommunication terminal equipment:

Note: In the United States (per FCC 47 CFR), Class A equipment is intended for use in commercial, light-industrial, and heavy-industrial locations. In Europe, Canada, Australia, and New Zealand (per CISPR 11) Class A equipment is intended for use only in heavy-industrial locations.

Note: Group 1 equipment (per CISPR 11) is any industrial, scientific, or medical equipment that does not intentionally generate radio frequency energy for the treatment of material or inspection/analysis purposes.

CE Compliance

This product meets the essential requirements of applicable European Directives, as follows:

 

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