6074BD USB Oscilloscopes 4 Channels 70Mhz Oscilloscope Digital PC Hand held Oscilloscope + 25Mhz Signal Generator
6074BD USB Oscilloscopes 4 Channels 70Mhz Bandwidth Oscilloscope Digital PC Hand held Electroscopic with 25Mhz Signal Generator
Meet or exceed the performance of bench oscilloscopes, four independent analog channels, 1GSa / s high-speed real-time sampling, 2mV-10V / DIV high input sensitivity, 250MHz high bandwidth.
Pass / Fail testing, extensive trigger functions, dynamic cursor tracking waveform recording and playback, and desktop oscilloscope similar interface, easy to use, cost-effective.
USB2.0 interface, plug and play, free external power supply.
Excellent industrial design, compact, easy to carry, and the shell is made of anodized aluminum of the iPad, not only beautiful, but also improves the alloy surface hardness, good heat resistance and abrasion resistance.
More suitable for tablet PCs, notebook computers, product line maintenance, easily on business.
Software Support: Windows10, Windows 8, Windows 7
Waveform data can be time-and voltage output to EXCEL, BMP, JPG.
More than 20 kinds of automatic measurement functions, PASS / FAIL Check, be suitable for engineering applications.
Waveform average, persistence, intensity, invert, addition, subtraction, multiplication, division, X-Y display.
FFT spectrum analysis.
A computer can connect many DSO, extend channel easily.
USBXI standard interface, easy to insert USBXI chassis, consisting of a combination of instruments.
Secondary development library DLL provides, Labview \ VB \ VC \ QT developers provide example
1 x 6074BD usb oscilloscope;
2 x oscilloscope probe;(Note:Just 2pcs probes in the package,if you want to buy more,please contact with us directly!!!)
2 x BNC - clip cable;
1 x usb cable;
1 x CD (driver / manual... inside)
The main performance indexes affect oscilloscope
Oscilloscope is used as digitizer
The fastest oscilloscopes and digitizers usually use parallel flash converters and 8-bit resolution. 8-bit or 256-level digitization is enough to express a smooth and easy to understand waveform display. Therefore, why not use DSO as a digitizer? Especially for high-speed signals, it is difficult for both instruments to obtain resolution above 8 bits.
In fact, the results are satisfactory, but there are exceptions. An oscilloscope is a discontinuous acquisition instrument and a digitizer is not. An oscilloscope must have a place to put the data before it captures the signal and then captures more, unless the data is stored in the pixel image using a continuous waveform acquisition similar to the TV frame rate. Such acquisition and equivalent display rates are high, but the data format makes further external analysis of the data volume very large.
In addition to the above special processing, oscilloscope can only continuously collect and display signals at a very low speed.The digitizer can achieve continuous throughput of 100MS/s or higher, limited only by the memory bus speed.For example, a PCI bus digital card, data transmission rate up to 100MB/s, PCI bus can work up to 66MS/s (132MB/s).
Oscilloscope throughput is limited by slow, low I/O capacity data processing speed.Slower digitizers and data recorders can write data directly to a hard drive, archiving several gigabytes of data, while oscilloscopes typically have a maximum of 16MB. If you look at the data transfer rate on the other hand, many applications only need to capture occasional data, but these bursts may be close.This is where the rapid transmission of data records becomes important. Examples of such signals include high-repetition pulse frequency (PRF) scanning radars, time-resolved ultrasonic sonar, time-of-flight mass spectrometers, and nuclear counting applications.