platform for control and data acquisistion application development

MicroDAQ E2000 customization


The E2000 series is dedicated to data acquisition and real-time processing applications. Thanks to dedicated DSP core user can execute code on an independent processing unit. The E2000 series is perfect for control and signal processing applications. The device can be configured with all available analog input and output options. The E2000 series is equipped with six PWM channels, two Encoder modules, up to 32 digital input/output channels. The E2000 software allows using the device with Scilab, Matlab, LabView and C/C++ and Python programming languages. The MicroDAQ toolbox for Scilab features automatic code generation for MicroDAQ DSP from the block diagram. For more advanced applications Matlab/Simulink can be used with Embedded Coder toolbox which can generate DSP application from Simulink model.

CPU




Storage

    

Analog inputs | Click below to select

Number of
channels
Resolution Sampling rate Input range ID

8
12 bit
100 ksps
multiplexed
0-5V, 0-10V, ±5V, ±10V
yes
ADC01
0.0 €

Analog input characteristic:
Channels8
Resolution12 bit
Sample rate100 ksps
Sample rate for all channels12.5 ksps
Input range0-5V, 0-10V, ±5V, ±10V
Differentialyes
Typemultiplexed
Isolationno
ADC typeSAR
Overvoltage protection±25V
Input impedance42/31kΩ
Integral nonlinearity (INL)±1 LSB max
Scheme:
ADC input scheme.
Application:
  • Basic data acquisition
  • Differential/Single-ended measurements

8
12 bit
600
simultaneous
±1V, ±2V, ±5V, ±10V
no
ADC02
220 €

Analog input characteristic:
Channels8
Resolution12 bit
Sampling rate** (ksps) 600/600/500 (CPU 456MHz)
600/500/400 (CPU 300MHz)
Input range±1V, ±2V, ±5V, ±10V
Differentialno
Typesimultaneous
Isolationno
ADC typeSAR
Overvoltage protection±20V
Input impedance>1MΩ
Integral nonlinearity (INL)±1 LSB max
Scheme:
ADC input scheme.
Application:
  • High speed data acquisition
  • Simultaneous data acquisition

16
12 bit
600
simultaneous
±1V, ±2V, ±5V, ±10V
no
ADC03
340 €

Analog input characteristic:
Channels16
Resolution12 bit
Sampling rate** (ksps) 600/600/500/350 (CPU 456MHz)
600/500/400/200 (CPU 300MHz)
Input range±1V, ±2V, ±5V, ±10V
Differentialno
Typesimultaneous
Isolationno
ADC typeSAR
Overvoltage protection±20V
Input impedance>1MΩ
Integral nonlinearity (INL)±4 LSB max
Scheme:
ADC input scheme.
Application:
  • High speed data acquisition
  • Simultaneous data acquisition

8
16 bit
500
simultaneous
±1V, ±2V, ±5V, ±10V
no
ADC04
320 €

Analog input characteristic:
Channels8
Resolution16 bit
Sampling rate** (ksps) 500/500/400 (CPU 456MHz)
500/400/300 (CPU 300MHz)
Input range±1V, ±2V, ±5V, ±10V
Differentialno
Typesimultaneous
Isolationno
ADC typeSAR
Overvoltage protection±20V
Input impedance>1MΩ
Integral nonlinearity (INL)±1 LSB max
Scheme:
ADC input scheme.
Application:
  • High speed data acquisition
  • Simultaneous data acquisition

16
16 bit
500
simultaneous
±1V, ±2V, ±5V, ±10V
no
ADC05
580 €

Analog input characteristic:
Channels16
Resolution16 bit
Sampling rate** (ksps) 500/500/400/300 (CPU 456MHz)
500/400/300/200 (CPU 300MHz)
Input range±1V, ±2V, ±5V, ±10V
Differentialno
Typesimultaneous
Isolationno
ADC typeSAR
Overvoltage protection±20V
Input impedance>1MΩ
Integral nonlinearity (INL)±4 LSB max
Scheme:
ADC input scheme.
Application:
  • High speed data acquisition
  • Simultaneous data acquisition

8
16 bit
500 ksps
multiplexed
±10.24V, ±5.12V, ±2.56V, ±1.24V, ±0.64V
yes
ADC06
180 €

Analog input characteristic:
Channels8
Resolution16 bit
Sample rate500 ksps
Sample rate for all channels62.5 ksps
Input range±10.24V, ±5.12V, ±2.56V, ±1.24V, ±0.64V
Differentialyes
Typemultiplexed
Isolationno
ADC typeSAR
Overvoltage protection±20V
Input impedance>1GΩ
Integral nonlinearity (INL)±3 LSB max
Scheme:
ADC input scheme.
Application:
  • High speed data acquisition
  • Differential/Single-ended measurements

8
16 bit
1000 ksps
multiplexed
±10.24V, ±5.12V, ±2.56V, ±1.24V, ±0.64V
yes
ADC07
300 €

Analog input characteristic:
Channels8
Resolution16 bit
Sample rate1000 ksps
Sample rate for all channels125 ksps
Input range±10.24V, ±5.12V, ±2.56V, ±1.24V, ±0.64V
Differentialyes
Typemultiplexed
Isolationno
ADC typeSAR
Overvoltage protection±20V
Input impedance>1GΩ
Integral nonlinearity (INL)±3 LSB max
Scheme:
ADC input scheme.
Application:
  • High speed data acquisition
  • Differential/Single-ended measurements

16
16 bit
500 ksps
multiplexed
±10.24V, ±5.12V, ±2.56V, ±1.24V, ±0.64V
yes
ADC08
440 €

Analog input characteristic:
Channels16
Resolution16 bit
Sample rate500 ksps
Sample rate for all channels31.25 ksps
Input range±10.24V, ±5.12V, ±2.56V, ±1.24V, ±0.64V
Differentialyes
Typemultiplexed
Isolationno
ADC typeSAR
Overvoltage protection±20V
Input impedance>1GΩ
Integral nonlinearity (INL)±3 LSB max
Scheme:
ADC input scheme.
Application:
  • High speed data acquisition
  • Differential/Single-ended measurements

16
16 bit
1000 ksps
multiplexed
±10.24V, ±5.12V, ±2.56V, ±1.24V, ±0.64V
yes
ADC09
540 €

Analog input characteristic:
Channels16
Resolution16 bit
Sample rate1000 ksps
Sample rate for all channels62.5 ksps
Input range±10.24V, ±5.12V, ±2.56V, ±1.24V, ±0.64V
Differentialyes
Typemultiplexed
Isolationno
ADC typeSAR
Overvoltage protection±20V
Input impedance>1GΩ
Integral nonlinearity (INL)±3 LSB max
Scheme:
ADC input scheme.
Application:
  • High speed data acquisition
  • Differential/Single-ended measurements

8
16 bit
2000 ksps
multiplexed
±10.24V, ±5.12V, ±2.56V, ±1.24V, ±0.64V
yes
ADC10
600 €

Analog input characteristic:
Channels8
Resolution16 bit
Sample rate2000 ksps
Sample rate for all channels250 ksps
Input range±10.24V, ±5.12V, ±2.56V, ±1.24V, ±0.64V
Differentialyes
Typemultiplexed
Isolationno
ADC typeSAR
Overvoltage protection±20V
Input impedance>1GΩ
Integral nonlinearity (INL)±3 LSB max
Scheme:
ADC input scheme.
Application:
  • High speed data acquisition
  • Differential/Single-ended measurements
*ADC01 is only available with DAC01 configuration.
**Sampling rate for 2/4/8/16 channels in use.


Analog outputs | Click below to select

Number of
channels
Resolution Output range Output drive ID

8
12 bit
0-5V
10 mA
DAC01
0 €

Analog output characteristic:
Channels8
Resolution12 bit
Output voltage range0-5V
Current drive10 mA
Update rate100ksps
Protectionshort-circuit: Indefinitely
Slew rate0.75V/µs
Capacitive drive1000 pF max
Differential nonlinearity (DNL)±0.25 LSB max
Integral nonlinearity (INL)±1 LSB max
Scheme:
DAC input scheme.
Application:
  • Basic control

8
12 bit
±10V, ±5V, ±2.5V, 0-10V, 0-5V
10 mA
DAC02
180 €

Analog output characteristic:
Channels8
Resolution12 bit
Output voltage range ±10V, ±5V, ±2.5V, 0-10V, 0-5V
Current drive10 mA
Update rate800ksps
Protectionshort-circuit: Indefinitely
Slew rate5V/µs
Capacitive drive1000 pF max
Differential nonlinearity (DNL)±0.5 LSB max
Integral nonlinearity (INL)±1 LSB max
Scheme:
DAC input scheme.
Application:
  • Control
  • Signal generation
  • Signal processing

8
16 bit
±10V, ±5V, ±2.5V, 0-10V, 0-5V
10 mA
DAC03
220 €

Analog output characteristic:
Channels8
Resolution16 bit
Output voltage range ±10V, ±5V, ±2.5V, 0-10V, 0-5V
Current drive10 mA
Update rate800ksps
Protectionshort-circuit: Indefinitely
Slew rate5V/µs
Capacitive drive1000 pF max
Differential nonlinearity (DNL)±1 LSB max
Integral nonlinearity (INL)±4 LSB max
Scheme:
DAC input scheme.
Application:
  • Control
  • Signal generation
  • Signal processing

16
12 bit
±10V, ±5V, ±2.5V, 0-10V, 0-5V
10 mA
DAC04
380 €

Analog output characteristic:
Channels16
Resolution12 bit
Output voltage range ±10V, ±5V, ±2.5V, 0-10V, 0-5V
Current drive10 mA
Update rate800ksps
Protectionshort-circuit: Indefinitely
Slew rate5V/µs
Capacitive drive1000 pF max
Differential nonlinearity (DNL)±0.5 LSB max
Integral nonlinearity (INL)±1 LSB max
Scheme:
DAC input scheme.
Application:
  • Control
  • Signal generation
  • Signal processing

16
16 bit
±10V, ±5V, ±2.5V, 0-10V, 0-5V
10 mA
DAC05
440 €

Analog output characteristic:
Channels16
Resolution16 bit
Output voltage range ±10V, ±5V, ±2.5V, 0-10V, 0-5V
Current drive10 mA
Update rate800ksps
Protectionshort-circuit: Indefinitely
Slew rate5V/µs
Capacitive drive1000 pF max
Differential nonlinearity (DNL)±1 LSB max
Integral nonlinearity (INL)±4 LSB max
Scheme:
DAC input scheme.
Application:
  • Control
  • Signal generation
  • Signal processing

4
12 bit
±10V, ±5V, ±2.5V, 0-10V, 0-5V
10 mA
DAC06
120 €

Analog output characteristic:
Channels4
Resolution12 bit
Output voltage range ±10V, ±5V, ±2.5V, 0-10V, 0-5V
Current drive10 mA
Update rate800ksps
Protectionshort-circuit: Indefinitely
Slew rate5V/µs
Capacitive drive1000 pF max
Differential nonlinearity (DNL)±0.5 LSB max
Integral nonlinearity (INL)±1 LSB max
Scheme:
DAC input scheme.
Application:
  • Control
  • Signal generation
  • Signal processing

4
16 bit
±10V, ±5V, ±2.5V, 0-10V, 0-5V
10 mA
DAC07
160 €

Analog output characteristic:
Channels4
Resolution16 bit
Output voltage range ±10V, ±5V, ±2.5V, 0-10V, 0-5V
Current drive10 mA
Update rate800ksps
Protectionshort-circuit: Indefinitely
Slew rate5V/µs
Capacitive drive1000 pF max
Differential nonlinearity (DNL)±1 LSB max
Integral nonlinearity (INL)±4 LSB max
Scheme:
DAC input scheme.
Application:
  • Control
  • Signal generation
  • Signal processing
*DAC01 is only available with ADC01 configuration.

Accessories

MDT-100B
The MDT-100B is ideal for simplifying connections between your MicroDAQ device and another laboratory, test, and production equipment.

The MDT-100B has the following features:
  • 6 BNC connectors for analog input, analog output, and user-defined signals
  • two 2-row terminal blocks, each allows connection with one MicroDAQ CNx connector
  • A two 26-pin I/O connector that connects to MicroDAQ CNx connectors
  • Prototyping area with dual SOIC operational amplifier for signal conditioning
Price: 79 €
Add

Education and research modules for MicroDAQ

Name Description
Two Rotor Aerodynamical System


Module consists of a beam pivoted on its base in such a way that the beam can rotate freely both in the horizontal and vertical planes. At both ends of the beam there are rotors (the main and tail ones) driven by DC motors. A counterbalance arm with a weight at its end is fixed to the beam at the pivot. The state of the beam is described by four process variables: horizontal and vertical angles measured by encoders fitted at the pivot, and two corresponding angular velocities. Two additional state variables are the angular velocities of the rotors, measured by speed sensors coupled with the driving DC motors. In a real helicopter the aerodynamic force is controlled by changing the angle of attack. In the laboratory set-up the angle of attack is fixed. The aerodynamic force is controlled by varying the speed of rotor.


Contact us at info@embedded-solutions.pl to get the price and lead time.





Your MicroDAQ device:

MicroDAQ E1000
ADC01-DAC01-00

CPU: 300Mhz
Storage: 4GB
Analog inputs: ADC01
Analog outputs: DAC01

Accessories: ------


Total: --- €


GET QUOTE




How to order?

Configure your MicroDAQ device and select GET QUOTE button. Fill out the contact form and submit your inquiry. We will prepare individual quotation with lead time, shipping cost and the payment terms. After quotation acceptance, we will start to process your order.



Any technical question?

If you have a question related to our products and software, please contact us at:
support@embedded-solutions.pl