예랑솔루션

The AFG-3000 series comes with four models. Model number and channel (s) are listed as follows:

Circuit Design for Ground Isolation among Output/Input Terminal, Instrument Chassis, and Dual Channels

Channel 1, channel 2, reference 10 MHz input, synchronization and modulation input/output connector grounding are isolated from instrument chassis. The output channels of dual channel models are independently isolated. These connectors can sustain maximum isolation voltage up to ±42Vpk (DC+ AC peak value) to earth ground that is ideal for floating circuit tests. Multi units output can be executed without factoring in grounding reference issue. The built-in DC bias voltage of the AFG-3000 series can be applied on various waveforms. The DC bias voltage is ±5V under 50 ohm load. Automotive electronic applications such as ignition controller or transmission devices require higher DC bias voltage. As shown in the following diagrams, when the Voffset of the power supply is 32Vdc, the maximum output of the AFG is 20Vpp, and the maximum voltage output to the ground is 42V. If Voffset is 41Vdc, the maximum output of the AFG is 2Vpp and the maximum voltage output to the ground remains to be 42V. Therefore, an external power supply can be used to bring up the DC bias voltage to ±42Vpk (DC+ AC peak value).

Connection diagram for AFG connecting with power supply to increase D.C. bias.

 
The Vout of AFG is 20/2 Vpp when DC bias is 32/41 Vdc.

 Test settings: power supply output -31.8V, and  AFG-3032 output 20Vpp, 1kHzz sine wave.

 
The test result obtained from an oscilloscope (high impedance load). The lowest voltage was -42.4V

Multi Channel Synchronized Phase Operation

Users can implement multi channel synchronized-phase operation up to 6 units and 12 channels (AFG-3032/3022). There are two methods to execute synchronized phase applications. Under different multiple frequency settings, master unit can synchronize the phase of each channel of the slave units. At 10 MHz reference frequency input (REF IN) connector, users can input 10 MHz atomic clock frequency standard via external signal source to increase frequency output accuracy.

Method one uses reference frequency output (REF OUT) and reference frequency input (REF IN), 50 ohm BNC cable (RG-58A/U) and T type BNC connector to connect up to 6 units to conduct synchronized phase operation.

Method two uses reference frequency output (REF OUT) and reference frequency input (REF IN) ), 50 ohm BNC cable (RG-58A/U) to connect up to 4 units to conduct synchronized phase operation.

Harmonic Signal Generator

Harmonic signal generator simulates the harmonic signal of switching power supplies and conducts characteristics tests on EMI power filter. Users can set order number and phase for harmonic signals to obtain desired signals. The following diagrams show 8th harmonic signal.

 
Harmonic Signal Generator

Harmonic Signal

Pulse Generator

The output frequency for pulse reaches 25 MHz and its duty cycle is from 0.017% to 99.983%. Users can set pulse width, duty cycle, rise edge time, fall edge time and edge time to support trigger signal. The following diagrams show settings for pulse signal.

Pulse Generator

Pulse Signal

Versatile Output Waveform Selections

65 built-in function waveforms include engineering applications, medical electronics, mathematics, and standard waveforms such as sine, square, triangle, ramp, pulse, noise, harmonic, and DC voltage that allow users to easily select desired waveforms. Users can select and edit 65 function waveforms from the arbitrary function.

Sine

Square

Triangle

Ramp

Pulse

Noise

Harmonic

DC voltage

Modulation Function

The series supports AM, FM, PM, FSK, PWM and SUM modulation. Modulation source can be from inside or outside. Applications include the baseband of communications systems, motor control and light adjustment.

Amplitude modulation

Frequency modulation

Phase modulation

Frequency-shift keying modulation

Pulse width modulation

SUM modulation

Burst Function

The series supports N-period or gated trigger. Phase angle, duration time, frequency, waveform infinite can be adjusted to meet non-continuous output applications.

Burst Setting

Burst Signal

Sweep Function

The series supports frequency sweep and amplitude sweep that can also integrate other functions, including linear/logarithm, one-way (saw tooth)/two-way (triangle) waveforms, continuous/single trigger/gated trigger to meet various application requirements by different sweep methods. Frequency sweep carries out tests on the frequency response of electronic components such as filter and low frequency amplifier. Amplitude sweep simulates vibration tests (requires a vibration tester), and it also conducts aging tests of various materials and linearity tests of low frequency amplifier.

Amplitude Sweep Setting

Amplitude Sweep Signal

Frequency Sweep Setting

Frequency Sweep Signal

Flexible Arbitrary Waveform Editing

Front Pannel Operation

Via single unit’s panel, arbitrary waveforms can be selected, edited, stored, recalled, output, triggered from 65 built-in waveforms.

CSV File Upload

Support CSV file upload produced by MATLAB and Excel.

Direct Waveform Reconstruction

Collocate with GDS series digital oscilloscopes to retrieve waveforms and upload them to arbitrary generator to achieve direct waveform reconstruction.

Arbitrary Waveform Editing PC Software

Use AWES to edit complex waveforms. The software supports waveform mathematical operation. The waveform series includes Uniform Noise, Gaussian Noise, Rayleigh Noise, various digital codes such as non zero code, Manchester and RS-232, etc.

Correlated Functions of Dual Channel Outputs

AFG-3032/3022 models support independent channel or correlated channel applications. Four correlated functions are provided including SUM modulation, coupling, tracking, and phase.

1.  SUM modulation combines two signals and outputs the signal via one single channel. Combining noise and sine waveform to execute speaker’s distortion test is one of the applications.

2.  Coupling function arbitrarily sets ratio and difference for frequency and amplitude between two channels to realize a simultaneous effect for all parameters of dual channel. The example is amplifier using third order interpolation point (IP3) measurement to simulate signal output of two different frequency oscillators.

3.  Tracking function produces differential signal with same frequency, same amplitude, and 180 degree phase difference