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|Inputs||> 4 Analog|
|Bus Decoding||CAN/LIN, I2C/SPI, I2S/LJ/RJ/TDM, RS232/422/485/UART|
|Freq Range||20,00 MHz|
|Memory Depth||256,00 MB|
- 8 channels, high resolution, deep memory.
- 8 channels
- 12 bit resolution
- 20 MHz bandwidth
- 256 MS buffer memory
- High-performance arbitrary waveform generator
- SuperSpeed USB 3.0 interface
- Split-screen waveform viewing
- Low sine and pulse distortion
- Advanced digital triggers
- Serial bus decoding
Offering 8 channels and 12-bit resolution with one ADC per channel, the PicoScope 4824 delivers the functionality you need to make precision, time-correlated waveform measurements on multiple channels and a wide range of signal types. Typical Applications Single- and 3-phase power transmission analysis Complex embedded system development Multi-sensor systems DC power supply sequencing Drives and controls Automotive system design, debug and validation 7.1 and 5.1 audio system measurements
Combining high resolution technology with 256 Msamples buffer memory, powerful debug tools and a built-in arbitrary waveform generator, the PicoScope 4824 is the ideal oscilloscope for precise measurements and rapid debug. Tools such as Mask Limit Testing, Serial Bus Decoding, Advanced Digital Triggers and Persistence Mode help to track problems for rapid troubleshooting. Waveforms are captured in high resolution, making it easy to distinguish signal from noise to ease debug and analysis.
- 8 channel oscilloscope
The PicoScope 4824 is a low cost, portable solution for multi-input applications. With 8 high-resolution analog channels you can easily analyze audio, ultrasound, vibration, power, and timing of complex systems, and perform a wide range of precision measurement tasks on multiple inputs at the same time. Although the scope has the same small footprint as Pico’s existing 2-and 4-channel models, the BNC connectors still accept all common probes and accessories with ample spacing of 20 mm. Despite its compact size, there is no compromise on performance. With a high 12-bit vertical resolution, bandwidth of 20 MHz, 256 MS buffer memory, and a fast sampling rate of 80 MS/s, the PicoScope 4824 has the power and functionality to deliver accurate results. It also features deep memory to analyze multiple serial buses such as UART, I2C, SPI, CAN and LIN plus control and driver signals.
- Applications - Power measurements
The PicoScope 4824 is ideal for making a range of power measurements on high voltages and currents and low-voltage control signals. For the best results, use a Pico differential voltage probe (TA041 or TA057) in combination with a current clamp (TA167). To improve the efficiency and reliability of power designs, the scope can display and analyze standby power dissipation, inrush current and steady-state power consumption. PicoScope’s built-in measurements and statistics of parameters such as true RMS, frequency, peak-to-peak voltage and THD allow accurate analysis of power quality. Data Acquisition With 256 Msamples of buffer memory the scope can capture over 5 minutes of continuous 50/60 Hz waveform data with high timing resolution. Using the Software Development Kit (SDK) you can write custom applications with storage limited only by the PC hard disk size. Nonlinear loads and modern power-conversion equipment produce complex waveforms with significant harmonic content. These harmonics reduce efficiency by causing increased heating in equipment and conductors, misfiring in variable speed drives, and torque pulsations in motors. The 12-bit PicoScope 4824 has the precision to measure distortion typically up to the 100th harmonic. On the supply side, power quality issues such as sags and dips, swells and spikes, flicker, interruptions and long-term voltage and frequency variations can also be checked for regulatory compliance. In a 3-phase distribution system, it is important to characterize and balance loads across phases. With 8 channels the PicoScope 4824 can monitor waveforms of current and voltage on all 4 conductors of a 3-phase plus-neutral system. This helps to identify mismatches that can cause breaker tripping, or transformer and conductor overheating.
- Applications - Complex embedded systems
When debugging an embedded system with a scope, you can quickly run out of channels. You may need to look at an I2C or SPI bus at the same time as multiple power rails, DAC outputs and logic signals. With eight channels, the PicoScope 4824 can cope with all of this. Choose whether to decode up to eight serial buses, with analog waveforms and decoded data both visible, or a combination of serial buses and other analog or digital signals. PicoScope provides advanced triggering on all channels, so you can search for runt pulses, drop-outs and noise as well as looking for data patterns using the 4-input Boolean logic trigger.