Signal Generators

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  •  -22% FNIRSI DSO - TC4 (3 - in - 1) Oscilloscope (10 MHz) + Transistor Tester + Signal Generator - Elektor

    FNIRSI FNIRSI DSO-TC4 (3-in-1) Oscilloscope (10 MHz) + Transistor Tester + Signal Generator

    The FNIRDSI DSO-TC4 is a multifunctional transistor oscilloscope that is both comprehensive and practical. It is designed for use in maintenance and R&D applications, integrating an oscilloscope, transistor tester, and signal generator into a single device. Features Equipped with a 2.8-inch TFT color screen for a clear and intuitive display Built-in high-capacity rechargeable lithium battery (1500 mAh) with a standby time of up to 4 hours Compact and lightweight, ideal for mobile use Specifications Oscilloscope Analog Bandwidth 10 MHz Real-Time Sampling Rate 48 MSa/s Input Impedance 1 MΩ Coupling Mode AC/DC Test Voltage Range 1:1 Probe: 80 Vpp (+40 V) 10:1 Probe: 800 Vpp (+400 V) Vertical Sensitivity 10 mV/div~10 V/div (X1 range) Vertical Displacement Adjustable with indication Time Base Range 50ns~20s Trigger Mode Auto/Normal/Single Trigger Type Rising edge, Falling edge Trigger Level Adjustable with indication Waveform Freeze Yes (HOLD function) Automatic Measurement Max, Min, Avg, RMS, Vpp, Frequency, Cycle, Duty Cycle Component Tester Transistor Amplification factor "hfe"; Base-Emitter voltage "Ube", Ic/Ie, Collector-Emitter reverse leakage current "Iceo", Ices, Forward voltage drop of protection diode "Uf" Diode Forward voltage drop <5 V (Forward voltage drop, Junction capacitance, Reverse leakage current) Zener Diode 0.01~32 V Reverse Breakdown Voltage (K-A-A Test Area) Field-Effect Transistor (FET) JFET: Gate capacitance "Cg", Drain current Id under "Vgs", Forward voltage drop of protection diode "Uf" IGBT: Drain current Id under Vgs, Forward voltage drop of protection diode Uf MIOSTET: Threshold voltage "Vt", Gate capacitance "Cg", Drain-Source resistance "Rds", Forward voltage drop of protection diode "Uf" Unidirectional SCR Trigger voltage <5V, Gate level (Gate voltage) Bidirectional SCR Trigger current <6mA (Gate voltage) Capacitor 25pF~100mF, Capacitance value, Loss factor "Vloss" Resistor 0.01Ω~50MΩ Inductor 10μH~1000μH, DC resistance DS18B20 Temperature sensor, Pins: GND, DQ, VDD DHT11 Temperature and humidity sensor, Pins: VDD, DATA, GND Signal Generator Output Waveform Supports 13 waveform outputs Waveform Frequency 0-50 KHz Square Wave Duty Cycle 0-100% Waveform Amplitude 0.1-3.0 V General Display 2.8-inch TFT color screen Backlight Brightness adjustable Power Supply USB-C (5 V/1 A) Battery 3.7 V/1500 mAh Languages English, German, Spanish, Portuguese, Russian, Chinese, Japanese, Korean Dimensions 90 x 142 x 27.5 mm Weight 186 g Included 1x FNIRSI DSO-TC4 (3-in-1) Oscilloscope (10 MHz) 1x P6100 Oscilloscope probes (10X) 1x Alligator clip probe 3x Test hooks 1x Adapter 1x USB-C charging cable 1x Manual Downloads Manual Firmware V0.0.3 (+V1.0.9)

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    € 89,95€ 69,95

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  •  -47% ICL8038 Signal Generator DIY Kit (5 Hz – 400 kHz) - Elektor

    Generic ICL8038 Signal Generator DIY Kit (5 Hz – 400 kHz)

    The ICL8038 signal generator delivers versatile waveforms, including sine, triangle, square, and forward/reverse sawtooth, making it suitable for a wide range of applications. Powered by the ICL8038 chip and high-speed operational amplifiers, it ensures exceptional precision and signal stability. With a frequency range of 5 Hz to 400 kHz, it supports applications from audio to radio frequencies. Its adjustable duty cycle, ranging from 2% to 95%, allows for precise waveform customization to meet various needs. The DIY kit is beginner-friendly, featuring through-hole components for easy assembly. It includes all necessary parts, an acrylic shell, and a detailed manual, providing everything required to build and use the signal generator efficiently. Specifications Frequency range 5 Hz~400 KHz (adjustable) Power supply voltage 12 V~15 V Duty cycle range 2~95% (adjustable) Low distortion sine wave 1% Low temperature drift 50 ppm/°C Output triangular wave linearity 0.1% DC bias range −7.5 V~7.5 V Output amplitude range 0.1 V~11 VPP (working voltage 12 V) Dimensions 89 x 60 x 35 mm Weight 81 g Included PCB incl. all necessary components Acrylic shell Manual

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    € 14,95€ 7,95

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  •  -16% JOY - iT JDS2960 2 - ch Signal Generator (60 MHz) - Elektor

    JOY-iT JOY-iT JDS2960 2-ch Signal Generator (60 MHz)

    The JOY-iT JDS2960 is a 2-channel signal generator capable of producing signals up to 60 MHz. Its compact design and the option to operate it with a power bank make it ideal for mobile use. With a variety of waveforms, including sine, square, triangle, pulse, half-wave, and more, it is suitable for various measurement technology applications. Additionally, the JDS2960 features a 1-channel frequency allocation. Its high frequency accuracy of ±20 ppm and stability of ±1 ppm/3 h ensure excellent signal quality and great flexibility. The 2.4-inch TFT color display provides user-friendly operation and enables a wide range of applications. Features 2 Channels Up to 60 MHz Robust aluminum housing 1-channel frequency counter Up to 20 Vpp Many different pre-programmed waveforms and up to 60 user-defined waveforms Pulse function Specifications Channels 2-channel Signal Generator1-channel Frequency meter Frequency range Sine: 0-60 MHzSquare, triangle: 0-25 MHzTTL, Pulse: 0-6 MHz Signal forms Sine, square, triangle, pulse, half/solid wave, exponential rise/fall, etc. Measuring range frequency counter 1-100 MHz Frequency accuracy ±20 ppm Frequency stability ±1 ppm/3 h Sampling rate 266 MSa/s Display 2,4" TFT color LCD Vertical shaft resolution 14 bits Amplitude range <10 MHz: 0-20 Vpp>10 MHz: 0-10 Vpp Amplitude resolution 1 mV Amplitude stability ±5%/5h Amplitude flatness <10 MHz: ±5%>10 MHz: ±10% Impedance of output 50 Ω ±10% Distortion factor <0.8% (20 Hz-20 KHz, 0 dBm) Dimensions 145 x 95 x 55 mm Weight 900 g Included 1x JOY-iT JDS2960 2-ch Signal Generator 1x Power supply unit 1x BNC-BNC cable 2x BNC crocodile clip cables 1x USB-DC power cable 1x USB data cable Downloads Datasheet Manual Software

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    € 154,95€ 129,95

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  •  -21%Last Stock! OWON XDG3102 2 - ch Arbitrary Waveform Generator (100 MHz) - Elektor

    OWON OWON XDG3102 2-ch Arbitrary Waveform Generator (100 MHz)

    2 in stock

    Features Advanced DDS technology, up to 250 MHz frequency output 1.25 GS/s sampling rate, and 1 μHz frequency resolution Up to 1M arbitrary waveform length Vertical resolution: 14 bits Comprehensive waveform output: 6 groups waveforms, and 152 group built-in arbitrary waveforms Comprehensive modulation options: AM, FM, PM, FSK, 3FSK, 4FSK, PSK, OSK, ASK, BPSK, PWM, sweep, and burst High-accuracy frequency counter integrated, ranging from 100mHz till 200MHz SCPI and LabVIEW supported 8-inxch 800 x 600 pixels touch screen LCD Specifications XDG3102 Channel 2 Frequency Output 100MHz Sample Rate 1.25GSa/s Vertical Resolution 14 bits Waveform Standard Waveform sine, square, pulse, ramp, noise, and harmonic Arbitrary Waveform exponential rise, exponential fall, sin(x)/x, step wave, and others, total of 150 built-in waveforms, and user-defined arbitrary waveform Frequency (resolution 1μHz) Sine 1μHz - 100MHz Square 1μHz - 40MHz Pulse 1μHz - 25MHz Ramp 1μHz - 5MHz Harmonic 1μHz - 50MHz Noise 120MHz (-3dB, typical) Arbitrary Waveform built-in waveform: 1uHz - 15MHzuser-defined waveform: 1uHz - 50MHz Accuracy ±1ppm, 0°C - 40°C Amplitude Amplitude (50Ω) 1mVpp - 10Vpp (≤40MHz); 1mVpp - 5Vpp (≤80MHz) 1mVpp - 2.5Vpp (≤120MHz); 1mVpp - 1Vpp (≤250MHz) Amplitude(high impedance) 2mVpp - 20Vpp (≤40MHz); 2mVpp - 10Vpp (≤80MHz); 2mVpp - 5Vpp (≤120MHz); 2mVpp - 2Vpp (≤250MHz) Resolution 1mV or 4 digits DC Offset Range (50Ω) ±(5 Vpk - Amplitude Vpp/2) Range (high-Z, open circuit) ±(10 Vpk - Amplitude Vpp/2) Accuracy ±(1% of |setting| + 1mV + Amplitude Vpp x 0.5%) Resolution 1mV or 4 digits Load Impedance 50Ω (typical) Accuracy ±(1% of setting + 1 mVpp) (typical, 1kHz sine, 0V offset) Sine Wave Spectrum Purity Harmonic Distortion Typical (0dB) DC - 1MHz: <-65dBc 1MHz - 10MHz: <-60dBc 10MHz - 120MHz: <-50dBc 120MHz - 200MHz: <-45dBc Total Harmonic Distortion <0.05 %, 10 Hz to 20 kHz, 1 Vpp Spurious (non-harmonic), Typical (0dB) ≤10MHz: <-70dBc >10MHz: <-70dBc + 6dB/ octave Phase Noise Typical (0 dBm, 10 kHz deviation) 10MHz: ≤-110dBc/Hz Square Rise/Fall Time <5ns Overshoot <3% Duty Cycle 50.0% (fixed) Jitter (rms) 300ps + 100ppm Pulse Pulse Width 12ns - 996875s Leading/Trailing Edge Time ≧7ns Overshoot <3% Jitter (rms) 300ps + 100ppm Ramp Linearity ≤1% of peak output (typical, 1kHz, 1 Vpp, 50% symmetry) Symmetry 0% to 100% Harmonic Harmonic Order ≤16 Harmonic Type even, odd, all, user Harmonic Amplitude could be set for all the harmonics Harmonic Phase Arbitrary Waveform Length 2 points - 1M points Vertical Resolution 14 bits Minimum Rise/Fall Time <7ns Jitter (rms) 3ns Modulation Type AM, FM, PM, PWM, FSK, 3FSK, 4FSK, PSK, OSK, ASK, BPSK, sweep, and burst AM Carrier Waveform sine, square, ramp, and arbitrary (except DC) Source internal / external Modulating Waveform sine, square, ramp, noise, and arbitrary Depth 0.0% - 100.0% Modulating Frequency 2 mHz - 100 kHz FM Carrier Waveform sine, square, ramp, and arbitrary (except DC) Source internal / external Modulating Waveform sine, square, ramp, noise, and arbitrary Modulating Frequency 2 mHz - 100 kHz PM Carrier Waveform sine, square, ramp, and arbitrary (except DC) Source internal / external Modulating Waveform sine, square, ramp, noise, and arbitrary Phase Deviation 0° - 180° Modulating Frequency 2 mHz - 100 kHz PWM Carrier Waveform pulse Source internal / external Modulating Waveform sine, square, ramp, noise, and arbitrary Width Deviation 0 ~ minimum (pulse duty ratio, 100% - pulse duty ratio) Modulating Frequency 2 mHz - 100 kHz FSK / 3FSK / 4FSK Carrier Waveform sine, square, ramp, and arbitrary (except DC) Source internal / external Modulating Waveform square with 50% duty cycle Key Frequency 2 mHz - 1MHz PSK Carrier Waveform sine, square, ramp, and arbitrary (except DC) Source internal / external Modulating Waveform square with 50% duty cycle Key Frequency 2 mHz - 1MHz OSK Carrier Waveform sine, square, ramp, and arbitrary (except DC) Source internal Oscillation Time square with 50% duty cycle Key Frequency 2 mHz - 1MHz ASK Carrier Waveform sine, square, ramp, and arbitrary (except DC) Source internal / external Modulating Waveform square with 50% duty cycle Key Frequency 2 mHz - 1MHz BPSK Carrier Waveform sine, square, ramp, and arbitrary (except DC) Source internal Modulating Waveform square with 50% duty cycle Key Frequency 2 mHz - 1MHz Sweep Carrier Waveform sine, square, ramp, and arbitrary (except DC) Type linear, and log Direction up, and down Sweep Time 1 ms to 500s, ± 0.1% Trigger Source internal, external, and manual Burst Carrier Waveform sine, square, ramp, pulse, and arbitrary (except DC) Burst Count 1 to 50,000 period, infinite, gating Internal Period 10 ns - 500 s Gated Source external trigger Frequency Counter Function frequency period, +width, -width, +duty, and -duty Frequency Range 100mHz - 200MHz Frequency Resolution 7 digits Input / Output Display 8”800 x 600 pixels touch screen LCD Type frequency counter, external modulation input,external trigger input,external reference clock input / output Communication Interface USB Host, USB Device, and LAN Dimension (W×H×D) 340 x 177 x 90 (mm) Weight (without package) 2.50kg

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    2 in stock

    € 699,00€ 549,00

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What is a signal generator or function generator? Why are signal generators necessary?

A signal generator or function generator is an analog or digital device that generates voltage waveforms at a predetermined frequency and applies them to a device under test. A signal generator is an essential tool for testing circuits. A signal generator is easy to operate thanks to the buttons and switches on the main panel, which allow you to adjust the most important aspects of a waveform, such as its speed, amplitude, and offset, as well as add simple distortion and modulation.

What are the most common signal generators?

When it comes to possible applications, we'll go through some of the most common signal generators, each serving a different function. To generate simple repetitive waveforms – and to improve, test and repair electronic equipment – you can use a function generator.

The sine wave is the most common waveform, but sawtooth, step (pulse), square, and triangle waveform oscillators are also common. You can also use them to test amplifiers or to introduce an error signal into a control loop. The ability to add a DC offset is another feature found on many function generators. Function generators are usually used with analog circuits.

Although function generators cover both audio and RF frequencies, they are rarely used in applications that require low distortion or stable frequency signals. Other signal generators are better suited when those features are needed.

A complex signal generator, an arbitrary waveform generator (AWG or ARB), creates arbitrary waveforms within a certain frequency range, accuracy, and output level. Unlike a function generator, which can only output a limited number of waveforms, an AWG allows you to select a waveform as a source in several ways. If you want an application with a higher design and testing level, you use an AWG.

RF signal generators are used in wireless communications applications. They usually support analog modulation such as AM, FM, and PM. RF signal generators are therefore intended for anyone involved in RF or microwave testing and development.

Audio signal generators are signal generators used for the sound range, from 20 Hz to 20 kHz and above. They produce sine waves for audio applications. In addition, their most striking features are the audio measurements of frequency response and distortion measurements. Audio signal generators should have a flat response and low levels of harmonic distortion.

Looking for signal generators? What does Elektor have to offer?

A signal generator is one of the most important and flexible test equipment for your electronics workbench. Elektor offers both function and arbitrary waveform generators that offer excellent quality and flexibility, such as the Siglent SDG1032X 2-channel Signal Generator (30 MHz) and the OWON XDG3102 2-channel Arbitrary Waveform Generator.

The signal shapes range from the most common, such as sine wave, to Lorenz pulse or exponential rise/fall, and more. The frequency ranges serve special purposes, so there is a solution for every electrical engineer, maker and electronics enthusiast. Elektor also offers a variety of DIY kits.

Elektor has accessories for signal generators in stock. In addition to the signal generator itself, test leads with alligator clips and probes and patch leads of different lengths can further improve the quality. For even better results you have the option of a memory storage upgrade and bandwidth expansion.

Why should you buy a signal generator from Elektor?

Ready to start looking for a signal generator? Elektor stocks a wide variety of signal generators to meet the different needs of a wide range of customers. With some of the products we include helpful reviews that detail the specifications and features of the generators.

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