FeelTech FY3200S Series Dual Channel Function/Arbitrary Waveform Generator

User's Manual Rev 3.0, January, 2016

Guaranty and Declaration

Trademark Information

FeelTech is a registered trademark of FeelTech Technology Co. Ltd.

Declaration

FeelTech reserves the right to modify or change parts of or all the specifications and pricing policies at company's sole decision.

Information in this publication replaces all previously corresponding material.

FeelTech shall not be liable for losses caused by either incidental or consequential in connection with the furnishing, use or performance of this manual as well as any information contained.

Any part of this document is forbidden to be copied or photocopied or rearranged without prior written approval of FeelTech.

Contact Us

If you have any problem or requirement when using our products or this manual, please contact FeelTech.

Tel: 0086 371 68997005

E-mail: feeltech@126.com

Website: www.feeltech.net

Introduction of the Instrument

This manual applies to each mode of FY3200S series DDS Function Signal Generator. In the series, the last two digits "xx" represent the upper limit frequency value (MHz) of Sine Wave for each mode. For example, FY3225S, "25" means the upper limit frequency of Sine Wave is 25MHz.

The instrument adopts large scale CMOS integrated circuit and high speed microprocessor. The internal circuit adopts active crystal oscillator as benchmark. So the signal stability is greatly strengthened. Surface mounting technology improves interference immunity and operational life span. It has Dual-channel DDS signal output, includes Sine wave, Square wave, Triangle wave, Sawtooth wave and user-defined waveform. The amplitude, offset and phase can be controlled. Meanwhile, it has TTL electric level output, External frequency measurement, counter and sweep functions including Linear sweep and Logarithmic sweep. Both the sweep frequency and time can be set arbitrarily. It's the ideal instrument for electronic engineering, laboratories, production lines, teaching and scientific research.

Excellent Technical Indexes and Function Features:

Sampling rate up to 250 MSa/s.
Built-in arbitrary waveform with 250 MSa/s sampling rate.
4 downloadable 2048 dots arbitrary waveform memories.
With 12 bit wide waveform generator, the output waveform can be more delicate with low distortion.
Fully numerical control. It can display and numerical control amplitude, offset, frequency, duty cycle of current signal output and phase difference of two channels. And dual-channel arbitrary integer multiples of the frequency output when no phase error signal phase drift.
Each function can be adjusted by host computer.
Preinstalled 17 common waveforms.
High frequency accuracy: magnitude 10^-6.
High resolution: Full range frequency resolution can be 10 mHz.
Both main and subsidiary wave duty cycle are adjustable separately (0.1%~99.9%).
All range continuously adjustable, digital directly setting.
High waveform accuracy: The output waveform synthesized by function calculation is of high accuracy and low distortion.
Arbitrary waveform: User can load arbitrary waveform according to the need.
Sweep Function: Linear sweep and Logarithmic sweep. Starting and stop points can be set optionally.
Save function: 20 sets of parameters defined by the users can be saved and loaded anytime.
Operation mode: Button and knob controlled with LCD1602 display, digital set directly or knob adjusted continuously.
Highly reliable: Large scale integrated circuit, Surface mounting technology, reliable and durable.
Frequency measurement: Frequency of internal / external signal can be measured through built-in 100MHz frequency meter.
Follow function: Built-in parameter follow function covering frequency, amplitude, offset, duty cycle, waveform etc. for user's convenience.
Trigger output function: User can choose manual trigger, external trigger or CH2 trigger to control the main output to output waveforms of specified periodicity. This periodicity can also be defined by the user.
FSK frequency shift keying and ASK amplitude shift keying signal output.

Product Function and Technology Indexes

Model	FY3206S	FY3212S	FY3224S	FY3225S
Sine wave frequency range	0Hz~6MHz	0Hz~12MHz	0Hz~24MHz	0Hz~25MHz
Square wave frequency range	0Hz~6MHz	0Hz~6MHz	0Hz~6MHz	0Hz~6MHz
Triangle wave frequency range	0Hz~6MHz	0Hz~6MHz	0Hz~6MHz	0Hz~6MHz
Arbitrary wave frequency wave	0Hz~6MHz	0Hz~6MHz	0Hz~6MHz	0Hz~6MHz

Parameters of Signal Output

Output channel	CH1 and CH2 dual channel high speed output separately.
Output waveform	Sine wave, square wave (duty cycle adjustable), triangle wave, sawtooth wave, arbitrary wave, common pulse, noise, electrocardiogram, AM, FM etc.
Output amplitude	≥20Vp-p (No load)
Output impedance	50Ω±10%
DC offset	±10V
Resolution	0.01Hz (10mHz)
Frequency accuracy	±5×10^-6
Frequency Stability	±2×10^-6/3 小时
Sine wave distortion	≤0.8% (reference frequency 1kHz)
Triangle linearity	≥98% (0.01Hz~10kHz)
Rise or fall time of square wave	≤30ns
Square wave duty cycle range	0.1%~99.9%
Pulse wave width range	10nS~1S

TTL Output

Electric level range	>3.3Vp-p
Fan-out	>20 TTL (Load)
Level rise fall time	≤20ns

Frequency Counter Function

Counter range	0-4294967295
Frequency meter range	1Hz~100MHz
Input Voltage Range	2Vp-p~20Vp-p

Sweep Function

Only CH1 has this function.

Sweep mode	Linear sweep, Logarithmic sweep
Frequency setting range	Starting and stop points can be set optionally.
Sweep range	fM1 (pre-set) ~ fM2 (pre-set)
Sweep speed	1s~999s / step-by-step

Other Features

Display mode	LCD1602 in English
Save and load	M0-M19 (Default: M0)
Buzzer warning tone	Can be turned On/Off by setting
Wide working voltage range	AC85V~AC260V
Production technology	Surface mounting technology, large scale integrated circuit, reliable and durable
Operating	Buttons controlled & knob adjusted continuously.
Work condition	Temp.: 0~40°C Humidity: <80%
Dimension	200mm (Long) × 190mm (Wide) × 90mm (High)
Weight	500g (bare machine), Accessory (150g)

Button Introduction

<PARM> button can be used to toggle the interfaces among Waveform, Amplitude, Offset, Duty cycle and Phase.
<WAVE> button can be used to enter waveform selecting interface and toggle the type of current output waveform.
<COUNT> button is shortcut key for measurement and can be used to switch between frequency measurement interface and counter interface.
<SWEEP> button is shortcut key for sweep function and can be used to enter sweep and sweep time interfaces.
<SYS> button can be used to enter the interfaces of follow setting, save or load.
<CH1> Main waveform confirmation, Output/Stop.
<CH2> Subsidiary waveform confirmation, Output/Stop.
<&lsaquo;> Cursor move to left.
<&rsaquo;> Cursor move to right.
<OK> ADJ confirmation (move downward).

Operating Introduction

1. Channel Selection

After starting up, "MF" or "SF" will be displayed in the top left corner to indicate current channel selection state.

"MF" means choosing main channel for operation. "SF" means choosing subsidiary channel for operation. It can be chosen by pressing <CH1> or <CH2> accordingly.
When the main channel has been chosen, press button <CH1> again and the main channel output will be shut down and the corresponding LED goes out.
Press the button <CH1> again and the main channel output will be activated again and the corresponding LED illuminates.
"SF" of <CH2> operating the same way as above.

Example Display:

MF=0010.00000kHz AMPL=05.00V SINE

SF=0010.00000kHz AMPL=05.00V SINE

2. Frequency Adjustment

If you want to adjust frequency of chosen main and subsidiary waveform, you need to make the cursor point to frequency value. If the cursor is in other functions, you can use <PARM> button to change position.

(Note: The frequency value displayed for arbitrary waveform is referenced. The actual output frequency = Display value × periodicity of waveform defined by user).

Use <ADJ> knob to change the frequency value of the cursor position. Rotate clockwise to increase the frequency. Rotate anticlockwise to reduce the frequency.

Example Display:

MF=0021.00000kHz AMPL=05.00V SINE

If you want to change frequency value significantly, you can use <&lsaquo;> and <&rsaquo;> to move the position of cursor.

Example Display:

MF=0021.00000kHz AMPL=05.00V SINE

<OK> button can change the unit of frequency displayed (Hz, kHz and MHz). Rotate the <ADJ> knob to change the number displayed to change the frequency.

Example Display:

MF=0021000.00Hz AMPL=05.00V SINE (Frequency unit is Hz)

MF=0.02100000MHz AMPL=05.00V SINE (Frequency unit is MHz)

3. Waveform Selection

In the interface of chosen main and subsidiary waveform, press <WAVE> button can toggle among Sine wave, Square wave, Triangle wave, Arbitrary wave and so on. You can also toggle the waveform quickly by rotating the <ADJ> knob. Press <PARM> button to quit waveform selection interface.

Main Output Waveforms:

MF=0021.00000kHz AMPL=05.00V SINE: Main output of waveform is Sine wave.
MF=0021.00000kHz AMPL=05.00V SQUR: Main output of waveform is Square wave.
MF=0021.00000kHz AMPL=05.00V PULS: Main output of waveform is Pulse wave.
MF=0021.00000kHz AMPL=05.00V TRGL: Main output of waveform is Triangle wave.
MF=0021.00000kHz AMPL=05.00V STW: Main output of waveform is Rise Sawtooth wave.
MF=0021.00000kHz AMPL=05.00V NSTW: Main output of waveform is Fall Sawtooth wave.
MF=0021.00000kHz AMPL=05.00V DC: Main output of waveform is DC wave.
MF=0021.00000kHz AMPL=05.00V PRE1: Main output of waveform is Lorentz Pulses.
MF=0021.00000kHz AMPL=05.00V PRE2: Main output of waveform is Multitone.
MF=0021.00000kHz AMPL=05.00V PRE3: Main output of waveform is Random Noise.
MF=0021.00000kHz AMPL=05.00V PRE4: Main output of waveform is electrocardiogram.
MF=0021.00000kHz AMPL=05.00V PRE5: Main output of waveform is trapezoidal pulse.
MF=0021.00000kHz AMPL=05.00V PRE6: Main output of waveform is Sinc pulse.
MF=0021.00000kHz AMPL=05.00V PRE7: Main output of waveform is narrow pulse.
MF=0021.00000kHz AMPL=05.00V PRE8: Main output of waveform is white Gaussian noise.
MF=0021.00000kHz AMPL=05.00V PRE9: Main output of waveform is amplitude modulated wave.
MF=0021.00000kHz AMPL=05.00VP RE10: Main output of waveform is frequency-modulated wave.
MF=0021.00000kHz AMPL=05.00V ARB1: Main output of waveform is Arbitrary wave 1.
MF=0021.00000kHz AMPL=05.00V ARB2: Main output of waveform is Arbitrary wave 2.
MF=0021.00000kHz AMPL=05.00V ARB3: Main output of waveform is Arbitrary wave 3.
MF=0021.00000kHz AMPL=05.00V ARB4: Main output of waveform is Arbitrary wave 4.

Subsidiary Output Waveforms:

SF=0021.00000kHz AMPL=05.00V SINE: Subsidiary output of waveform is Sine wave.
SF=0021.00000kHz AMPL=05.00V SQUR: Subsidiary output of waveform is Square wave.
SF=0021.00000kHz AMPL=05.00V TRGL: Subsidiary output of waveform is Triangle wave.
SF=0021.00000kHz AMPL=05.00V STW: Subsidiary output of waveform is Rise Sawtooth wave.
SF=0021.00000kHz AMPL=05.00V NSTW: Subsidiary output of waveform is Fall Sawtooth wave.
SF=0021.00000kHz AMPL=05.00V PRE1: Subsidiary output of waveform is Lorentz Pulses.
SF=0021.00000kHz AMPL=05.00V PRE2: Subsidiary output of waveform is Multitone.
SF=0021.00000kHz AMPL=05.00V PRE3: Subsidiary output of waveform is Random Noise.
SF=0021.00000kHz AMPL=05.00V PRE4: Subsidiary output of waveform is electrocardiogram.
SF=0021.00000kHz AMPL=05.00V PRE5: Subsidiary output of waveform is trapezoidal pulse.
SF=0021.00000kHz AMPL=05.00V PRE6: Subsidiary output of waveform is Sinc pulse.
SF=0021.00000kHz AMPL=05.00V PRE7: Subsidiary output of waveform is narrow pulse.
SF=0021.00000kHz AMPL=05.00V PRE8: Subsidiary output of waveform is white Gaussian noise.
SF=0021.00000kHz AMPL=05.00V PRE9: Subsidiary output of waveform is amplitude modulated wave.
SF=0021.00000kHz AMPL=05.00V PRE10: Subsidiary output of waveform is frequency-modulated wave.
SF=0021.00000kHz AMPL=05.00V ARB1: Subsidiary output of waveform is Arbitrary wave 1.
SF=0021.00000kHz AMPL=05.00V ARB2: Subsidiary output of waveform is Arbitrary wave 2.
SF=0021.00000kHz AMPL=05.00V ARB3: Subsidiary output of waveform is Arbitrary wave 3.
SF=0021.00000kHz AMPL=05.00V ARB4: Subsidiary output of waveform is Arbitrary wave 4.

4. Amplitude Adjustment

In chosen main and subsidiary waveform interface, press <PARM> button to make the cursor point to the value of amplitude (AMPL=). The value (Vpp) is peak value of the signal. Use <&lsaquo;> and <&rsaquo;> buttons and <ADJ> knob to change the value. As follows:

MF=0021.00000kHz AMPL=05.00V TRGL

5. Offset Adjustment

In chosen main and subsidiary waveform interface, press <PARM> button to make the cursor point to the value of offset (Offset=). Use <&lsaquo;> and <&rsaquo;> buttons and <ADJ> knob to change the value. As follows:

MF=0021.00000kHz Offset=1.0V TRGL

6. Duty Cycle Adjustment

In chosen main and subsidiary waveform interface, press <PARM> button to make the cursor point to the value of duty cycle (DUTY=). Use <&lsaquo;> and <&rsaquo;> buttons and <ADJ> knob to change the value. (Duty cycle adjustment is invalid for Sine wave). As follows:

Duty cycle for Square wave can be adjusted from 0.1% to 99.9%.

MF=0021.00000kHz DUTY=50.0% SQUR (WAVE=SQUR)
MF=0021.00000kHz DUTY=80.0% SQUR (WAVE=SQUR)

Triangle wave adjustable among 50% (standard TRGL), above 50% and below 50% (both are different sawtooth waves).

MF=0021.00000kHz DUTY=50.0% TRGL (WAVE=TRGL)
MF=0021.00000kHz DUTY=51.0% TRGL (WAVE=TRGL)
MF=0021.00000kHz DUTY=49.0% TRGL (WAVE=TRGL)

7. Phase Adjustment

In chosen Subsidiary waveform interface, press <PARM> button to make the cursor point to the value of phase (Phase=). Use <&lsaquo;> and <&rsaquo;> buttons and <ADJ> knob to change the value of DC offset. The phase difference of main wave and subsidiary wave can be adjusted from 0° to 359°. As follows:

SF=0021.00000kHz Phase=000° SQUR

Operating Introduction (Continued)

8. Pulse Width Adjustment (Pulse)

Pulse positive pulse width can be set in the range of 10nS to 1S. The default value is 50nS.

In CH1 channel waveform interface function is selected, press <WAVE> key to switch to the main waveform pulse wave "PLUS" mode, press <PARM> key to make the cursor position corresponding positive pulse parameters (Pu =), use <&lsaquo;> and <&rsaquo;> buttons and <ADJ> knob to change the output positive pulse width can range 10nS ~ 1S adjustment, As below:

SF=0021.00000kHz Pu=0000000.010uS SQUR

9. Setting DC Wave Parameters (DC)

DC wave can be set in the range of -10V to + 10V, the default value is 0V.

In CH1 or CH2 channel waveforms interface function is selected, press <WAVE> key to switch to the main wave "DC" mode, press <PARM> key to move the cursor to stay in offset level parameters corresponding to the position (Offs =), use <&lsaquo;> and <&rsaquo;> buttons and <ADJ> knob to change the value of the output voltage direct current wave can be adjusted in the range between -10V to + 10V, as shown below:

SF=0021.00000kHz Offs=-5.00V DC SQUR

10. Measurement Function

Press <COUNT> button in any interface to enter measurement function. This instrument offers frequency and counter two measurement functions. Input the signal from "Input" port on the front panel. Press <COUNT> button again to switch between frequency measurement and counting pulse.

ExtF=21.000kHz *FUNC:EXT. TREQ (Measure=FREQ)

Press <ADJ> button to reset the counter.
Rotate the <ADJ> knob anticlockwise to pause (Doesn't disturb counter).
Rotate the <ADJ> knob clockwise to cancel the pause.

CNTR=0 *FUNC:COUNGTER (Measure=COUNT)

Other Functions and Advanced Operations

11. Trigger Output Function

In counter function interface, press <COUNT> button to enter waveform trigger output function. This instrument offers manual trigger, external trigger and CH2 trigger for options. Rotate the <ADJ> knob to adjust the waveform amount for single trigger. Press <COUNT> button to toggle among manual trigger, external trigger, CH2 trigger and measurement function.

CP_CNT=0000001 Trigger Manual: Manual trigger. Single trigger output 1 period of waveform. Press <ADJ> button to trigger.
CP_CNT=0000012 Trigger Ext: External trigger. Single trigger output 12 periods of waveform. Reverse the electric lever of input port to trigger.
CP_CNT=0000013 Trigger CH2: CH2 trigger. Single trigger output 13 periods of waveform. Reverse the CH2 signal output to trigger.

12. FSK Frequency Shift Keying

FY3200S can FSK waveform from CH1 channel output. FY3200 provides two FSK trigger source: manual, external. Trigger Mode Select <COUNT> button can be selected.

The first frequency shift keying component is determined by the CH1 fundamental frequency, frequency shift keying a second frequency component is determined by the FSK interface frequency F2, use <&lsaquo;> key and <&rsaquo;> key with parameter adjustment knob to change the "F2" output signal frequency value, As below:

F2 = 0020.00000KHz FSK- Manual_Mod (manual trigger mode, one-shot output corresponding to the frequency of the waveform F2. Press <OK> button Trigger)
F2=0020.00000KHz FSK- Ext_Mod (external trigger mode, the trigger source INPUT terminal introduced)

Terminal trigger source is INPUT, when a rising edge of the trigger signal "INPUT", FSK output signal at a frequency of CH1, when the falling edge of the trigger signal "INPUT", FSK output frequency signal corresponding to F2.

13. ASK Amplitude Shift Keying

FY3200S from CH1 channel output amplitude shift keying waveform. FY3200 provides two FSK trigger source: manual, external. Trigger Mode Select <COUNT> button can be selected.

The first frequency shift keying component is determined by the CH1 fundamental frequency, frequency shift keying a second frequency component is determined by the frequency of the FSK interface F2.

ASK (ASK- Manual_MOD release OK button rotary encoder output signal is 0)
ASK- Ext_Mod

ASK (manual trigger mode, press <OK> output waveform to CH1)

ASK- Manual_MOD release <OK> output signal is ZERO

ASK- Ext_Mod (external trigger mode, the trigger source INPUT terminal introduced)

Trigger source INPUT terminal is introduced, when a rising edge of the trigger signal INPUT, amplitude shift keying output signal at a frequency of CH1, when INPUT falling edge of the trigger signal, the output amplitude shift keying output to zero.

14. Sweep Function

Press the <SWEEP> button in any interface to enter sweep function. This instrument has LIN-SWEEP and LOG-SWEEP. The sweep signal outputs from CH1.

The default sweep mode is LIN-SWEEP. You can change the mode by rotating the <ADJ> knob before sweep.
Press the <ADJ> knob to start or stop sweep function. The frequency of sweep signal changes from fM1 to fM2 (Refer to function 10). The value of M1 and M2 need to be set by SAVE function. The sweep time need to be set by TIME function.

F=0021.00000kHz *LIN-SWEEP: STOP

F=0021.00000kHz *LIN-SWEEP: RUN

F=0021.00000kHz *LOG-SWEEP: STOP

F=0021.00000kHz *LOG-SWEEP: RUN

In sweep interface, Press <SWEEP> button again to switch between the interfaces of sweep begin and sweep time adjustment. The sweep time refers to the time length from fM1 (starting frequency) to fM2 (stopping frequency). The time can be adjusted from 1s to 99s.

F=0021.00000kHz *FUNC:TIME=10S

15. Save Function

In chosen main and subsidiary waveform interface, press <SYS> button to enter follow function and set if the parameters of subsidiary waveform follow the parameters of main waveform. In this way, the corresponding parameters of CH2 will follow the change if the parameters of CH1 have been changed.

Frequency follow setting: Press <ADJ> button to change the frequency follow status.

Freq CH1=CH2? NO Following (The frequency of CH2 will not follow CH1)

Freq CH1=CH2? OK Following (The frequency of CH2 will follow CH1)

Amplitude follow setting: Rotate the <ADJ> knob in follow mode setting interface to enter amplitude follow interface. Press <ADJ> button to change the amplitude follow status.

AMPL CH1=CH2? NO Following (The amplitude of CH2 will not follow CH1.)

AMPL CH1=CH2? OK Following (The amplitude of CH2 will follow CH1.)

Offset follow setting: Rotate the <ADJ> knob in follow mode setting interface to enter offset follow interface. Press <ADJ> button to change the offset follow status.

Offs CH1=CH2? NO Following (The offset of CH2 will not follow CH1.)

Offs CH1=CH2? OK Following (The offset of CH2 will follow CH1.)

Duty cycle follow setting: Rotate the <ADJ> knob in follow mode setting interface to enter duty cycle follow interface. Press <ADJ> button to change the duty cycle follow status.

DUTY CH1=CH2? NO Following (The duty cycle of CH2 will not follow CH1.)

DUTY CH1=CH2? OK Following (The duty cycle of CH2 will follow CH1.)

Waveform follow setting: Rotate the <ADJ> knob in follow mode setting interface to enter waveform follow interface. Press <ADJ> button to change the waveform follow status.

WAVE CH1=CH2? NO Following (The waveform of CH2 will not follow CH1.)

WAVE CH1=CH2? OK Following (The waveform of CH2 will follow CH1.)

Follow setting information saving: Rotate the <ADJ> knob in follow mode setting interface to enter follow setting information saving interface. Press <ADJ> button to set follow status. (Next starting machine will affect follow status.)

Save configurati Following

Save configurati Following OK (Follow setting information saving complete.)

16. Save Function

Press <SYS> button in follow function interface to enter save function. Current frequency value, amplitude value, offset value, duty cycle, waveform and phase of main and subsidiary waveform can be saved. This instrument provides 20 memory positions (M0~M19) for saving and can be loaded easily next time.

Rotate the <ADJ> knob to choose saving position (M0~M19). Then press the <ADJ> button and "M" will display in the top right corner for a short while which means all the current parameters have been saved to this position.
Position 0 (M0) is used to save the boot default parameters. The instrument will load all the parameters from this position next boot. As follows:

MF=0021.00000kHz *SAVE P_ON FREQ

Position 1 (M1) is used to save starting frequency for sweep function which will be loaded by sweep function automatically. As follows:

MF=0021.00000kHz *SAVE BEGIN FREQ

Position 2 (M2) is used to save stop frequency for sweep function which will be loaded by sweep function automatically. As follows:

MF=0021.00000kHz *SAVE END FREQ

Positions 03~19 (M3~M19) are for user defined waveform. As follows:

MF=0021.00000kHz *SAVE ADDR=03

17. Load Function

Press <PARM> button in save function interface to enter load function. It will enable the user to load the frequency value, amplitude value, offset value, duty cycle, waveform and phase of main and subsidiary waveform from memory (M0~M19).

Rotate the <ADJ> knob to select the position (M0~M19) for loading. Press <ADJ> button to confirm. "OK" will display in the top right for a short while which means loading complete.

MF=0021.00000kHz *FUNC:LOAD=00 OK

If "Non" displays, it means no information in this position. Loading can't be done.

MF=0021.00000kHz *FUNC:LOAD=00 Non

Other Functions

Dual TTL output are CH1 and CH2 waveform synchronized TTL waveform.
Buzzer function. Each time when you press a button or rotate a knob, an impulse will be generated and the buzzer will beep once. It will beep longer if invalid operation is conducted. The buzzer can be turned off by pressing and holding <ADJ> button and then turning on the power switch in shutdown state if you don't like the sound. The buzzer can be turned on by repeating above operations.

Appendices

Appendix A: Safety Notes

Before using this instrument, please check if the power supply is normal, to ensure the normal use and personal safety.
This instrument must be used in the technical index range.
Please do not change the instrument circuit arbitrarily, so as to avoid damaging equipment or endangering the safety.

Appendix B: Warning and Personal Injury

Do not apply the product in the safety protection device or emergency stop device, or any other applications that the product failure could result in personal injury, unless there is special purpose or use authorization. Before the installation and use, each parameter of the technical indexes in this manual should be referred to. If this suggestion is not obeyed, death or serious personal injury could be caused. In this condition the company will not be responsible for any compensation of personal injury or death, and all the company managers and employees and auxiliary agents, distributors, other personnel concerned will be released from any claim (including all the costs, expenses, attorney fees etc.) that may result in.

Appendix C: Accessories and Options

Model	Description	Quantity
	FY3200S-6M (6MHz, Dual-channel)	1
	FY3200S-12M (12MHz, Dual-channel)	1
	FY3200S-20M (20MHz, Dual-channel)	1
	FY3200S-24M (24MHz, Dual-channel)	1
	FY3200S-25M (25MHz, Dual-channel)	1
Standard Accessories	Power Cable	1
	USB-B Data Cable	1
	BNC-Clip Cable	2
	Resource CD (including the User's Manual)	1
Options	BNC-BNC cable
	FYA2000/FPA1000 Series Amplifier

Note: Options can be ordered from local FeelTech distributors.

Appendix D: Warranty

FeelTech warrants that its products mainframe and accessories will be free from defects in materials and workmanship within the warranty period. If a product is proven to be defective within the respective period, FeelTech guarantees the free replacement or repair of products which are approved defective. This product enjoy 1 year warranty since its delivery. Damages caused by misuse, vandalism, improper maintenance or force majeure are not covered by the warranty. Any disassembly or amendment without permission will be deemed giving up warranty rights consciously.

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Guaranty and Declaration

Trademark Information

Declaration

Contact Us

Introduction of the Instrument

Excellent Technical Indexes and Function Features:

Product Function and Technology Indexes

Parameters of Signal Output

TTL Output

Frequency Counter Function

Sweep Function

Other Features

Button Introduction

Operating Introduction

1. Channel Selection

2. Frequency Adjustment

3. Waveform Selection

4. Amplitude Adjustment

5. Offset Adjustment

6. Duty Cycle Adjustment

7. Phase Adjustment

Operating Introduction (Continued)

8. Pulse Width Adjustment (Pulse)

9. Setting DC Wave Parameters (DC)

10. Measurement Function

Other Functions and Advanced Operations

11. Trigger Output Function

12. FSK Frequency Shift Keying

13. ASK Amplitude Shift Keying

14. Sweep Function

15. Save Function

16. Save Function

17. Load Function

Other Functions

Appendices

Appendix A: Safety Notes

Appendix B: Warning and Personal Injury

Appendix C: Accessories and Options

Appendix D: Warranty

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