FNIRSI-1014D oscilloscope – Innovative two-channel digital oscilloscope and signal generator in one compact device.
In the world of electronic measurements, we are often faced with the challenge of needing several tools at the same time to work accurately and efficiently. The FNIRSI-1014D oscilloscope offers an elegant solution for this, since this device is not only a high-performance oscilloscope, but also a versatile signal generator. This combination allows you to perform tasks that previously required several separate instruments with a single device.
A FNIRSI-1014D oscilloscope one of its most striking features is the 7-inch TFT LCD display with a resolution of 800×480. This large color screen provides excellent visibility, so you can easily read the measurement results and analyze the displayed waveforms. Thanks to the high contrast and bright colors, the content of the screen is clearly visible even in difficult lighting conditions.
The device has two analog input channels, each boasting a bandwidth of 100 MHz. This means that the FNIRSI-1014D can accurately follow very fast signal changes. The maximum real-time sampling rate is 1 GSa/s (gigasamples per second), which enables extremely detailed and accurate signal recording. This is particularly useful for applications where the investigation of fast transient phenomena is crucial.
A FNIRSI-1014D oscilloscope its vertical sensitivity can be adjusted between 50 mV/div and 500 V/div, which provides a wide measurement range. The horizontal time base ranges from 50 s/div to 10 ns/div, allowing for the examination of both slow and extremely fast signals. The oscilloscope has an 8-bit ADC (analog-to-digital converter) precision, which makes it possible to distinguish 256 different voltage levels.
A FNIRSI-1014D oscilloscope its outstanding feature is the built-in overvoltage protection. The device can withstand a continuous voltage of up to 400 V, which significantly reduces the risk of accidental damage. This is especially useful in situations where you accidentally apply a higher voltage to the input than the device can normally handle.
A FNIRSI-1014D oscilloscope its functionality is further expanded by the built-in DDS (Direct Digital Synthesis) signal generator. This module can generate 14 different standard functional signals, including sine, square, triangle and sawtooth waveforms. You also have the option of creating unique, so-called "chopping" signals. This function allows you to use part or all of the complex signals measured with the oscilloscope as the output signal of the signal generator. You can save up to 1000 of these unique symbols for later use.
The FNIRSI-1014D offers several triggering options, including single, normal, and automatic modes. The trigger edge can be set to a rising or falling edge. This flexibility allows you to examine exactly the part of the signal that is of interest to you.
The device has 1 GB of built-in storage capacity, which allows you to save up to 1000 screenshots and 1000 waveform data sets. This can be extremely useful during longer measurement series or when you want to analyze the recorded data later. Thanks to the USB connection, you can easily transfer this data to a computer for further processing.
Now let's take a closer look at FNIRSI-1014D oscilloscope some of its key features:
1. Maximum real-time sampling rate: 1 GSa/s
This speed means that the oscilloscope can take one billion samples of the input signal per second. This enables extremely fast sampling, which is essential for accurate representation of high-frequency signals. Thanks to this, you can also observe rapid signal changes that would remain hidden with a lower sampling rate.
2. Vertical sensitivity: 50mV/div ~ 500V/div
This range allows you to test both small amplitude signals (up to 50 millivolts per division) and high voltage signals (up to 500 volts per division). This flexibility means that you can measure microelectronic circuits and higher power systems with the same device.
3. Horizontal time base range: 50 s/div ~ 10 ns/div
This wide range allows you to observe very slow processes (up to 50 seconds per division) and extremely fast events (up to 10 nanoseconds per division). This is especially useful for applications where you need to examine both long-term trends and fast transient phenomena.
4. Maximum test voltage: 40 V (1X probe), 400 V (10X probe)
This feature is for safe operation. A maximum of 1 volts can be measured directly with the 40X probe, while this limit increases to 10 volts with the 400X probe. This allows you to safely work with circuits at different voltage levels without damaging the oscilloscope.
5. Storage depth: 240 Kbits
This storage capacity allows longer signal segments to be recorded and analyzed later. This is especially useful in cases where you need to observe and analyze rare events or complex signal sequences.
6. Input resistance: 1 MΩ
The 1 megaohm input resistance ensures that the oscilloscope puts a minimal load on the circuit under test. This means that during the measurement you do not significantly influence the operation of the system being tested, so you can get more accurate results.
7. ADC precision: 8 bit
The 8-bit analog-to-digital converter can distinguish between 256 different voltage levels. This provides sufficient resolution for most applications, allowing fine details of the signal to be observed.
8. Connection method: AC/DC
AC (alternating current) and DC (direct current) coupling modes allow you to test different types of signals. AC coupling is useful for examining the AC component of a signal, while DC coupling allows monitoring of the entire signal, including the DC component.
9. Trigger modes: Single, Normal, Automatic
These trigger modes allow you to efficiently examine different types of signals. The single mode is ideal for recording one-time events, the normal mode for stable display of repeated signals, while the automatic mode provides continuous signal display even in the absence of a trigger event.
10. Trigger edge: Rising Edge/Trailing Edge
Rising and falling edge triggering allows you to determine exactly when to start recording the signal. This is particularly useful when examining pulses or other signals where precise timing is important.
11. External trigger voltage: 0 ~ 40 V
This feature allows you to use an external signal source for triggering, which can be useful in complex measurement situations or when synchronizing multiple devices.
Here is a summary of the main capabilities of the FNIRSI-1014D oscilloscope:
- Two-channel input with 100 MHz bandwidth
- 1 GSa/s maximum real-time sampling rate
- 7-inch TFT LCD display with 800×480 resolution
- Built-in DDS signal generator with 14 standard functional signals
- Option to create and store a unique "chopping" signal
- 400 V surge protection
- Wide vertical sensitivity and horizontal time base range
- 1 GB built-in storage capacity
- USB connection option for data export
- Multiple trigger modes and options
- Lissajous curve display and FFT analysis function
A FNIRSI-1014D oscilloscope available for purchase at the Banggood store BGd83351 coupon code For HUF 46 800, delivered from a Czech warehouse.
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FNIRSI-1014D oscilloscope
