| All returns accepted | ReturnsNotAccepted |
|---|---|
| Brand | GRA & AFCH |
| Signal Generator Type | RF Signal Generator |
| Frequency Range | 600Mhz |
| MPN | DDS9910 |
| Modified Item | No |
Check the listing for details. DDS AD9910 v3.5 Shield with Arduino RF Signal Generator AM/FM/SWEEP. Condition: New. Listed at 289.00 USD. DDS AD9910 v3.5 Shield for Arduino Signal Generatorsinewave 600Mhz @1.5GHz Core Clock low Spurs, HarmonicsWe provide FREE WORLDWIDE Economy shipping UPS Expedited delivery 3-5 days availableDDS AD9910 Shield for Arduino RF Signal Generator DDS9910 Shield Board is an Evaluation Board designed to utilize Analog Devices AD9910 chip capabilitiesThis RF AD DDS Unit specifically developed and designed to work with Arduino MEGA 2560 without additional wires or convertersThe Shield Board is equipped with all linear power supplies enabling it to be powered via USB or a 7.5V power source, allowing “out of the box” functionalityIt is design as product with an intuitive interface, making it easy to use for both beginners and professionalsWhen ordering, you can choose a Clock source option: XO/TCXO/EXT OSC (External Clock)We recommend selecting the TCXO option, as it offers excellent phase noise and frequency stability characteristicsHowever the device also supports operation from an external clock source without any issuesFor maximum performance we recommend using the RCLN1000 reference oscillator with ultra-low noiseThis Evaluation Board is an ideal choice for developers looking to leverage the capabilities of Direct Digital Synthesis in their Arduino-based projectsThe Board is suitable for students, researchers, laboratories, embedded system developers, radio enthusiasts, and HAM radio operatorsThe Firmware included with the Shield Board implements AD9910 technologies such as:Sweep, DRG (Digital Ramp Generator), RAM, AM, FM modulation, S-Curve, Local Oscillator (for HAM Radio and Receiver)PCB Design Layout Schematics Case and Software developed by GRA & AFCHOpensource Firmware available on our GitHub repository: github.com/afch/DDS-AD9910-Arduino-ShieldDDS AD9910 Firmware compilation and uploading to Arduino Mega Tutorial: youtube.com/watch?v=Zn1xLlvlVXEVideo review of DDS AD9910 Shield on our YouTube channel: youtube.com/watch?v=GNM5LJT_cgw Listing includes: RF AD DDS Unit [AD9910 Shield Board]Display [OLED] [1,54″] (included with the RF Unit)Clock Source (TCXO) (preset for the RF Unit)Arduino Control Board [MEGA 2560] (included with the RF Unit)Power Supply [DC 7.5V/2A] [US, EU, UK] (included, optional AC plug) Dear customers! If you have ANY questions, PLEASE ASK us The most significant improvements compared to the previous version: Menu navigation has been upgraded: buttons have been replaced with an encoder for easier controlA physical button has been added to toggle the RF output on and offLED indicators have been introduced for each SMA connector, along with a separate indicator for PLL LOCK statusSupport for a larger 1.54-inch display for users with impaired vision. The 0.96-inch display remains availableA software-controlled RF switcher has been added to select clock sources, eliminating the need to manually re-solder capacitorsTwo new SMA outputs have been added:TRG OUT for oscilloscope synchronization in S-Curve mode, and DROVER to indicate when the Sweep function completesA bidirectional level shifter has been added to the shield, allowing not only data writing to the AD9910 but also reading it back.This enables the use of the “read-modify-write” conceptTwo new modes have been added to the firmware: Local Oscillator and S-Curve, both useful for tuning radio receiversThe shield now monitors the power supply voltage and displays a warning, disabling the AD9910 if the input voltage is outside acceptable limitsCircuit design optimizations have significantly reduced phase noise compared to version 2 Key features: Low harmonics no more than -60dBc. An output RF transformer is used for the correct operation of the current mirrorLow number of spurs due to the use of a 7-order output LPF filter with a cutoff frequency of 600 MHz4 layer board. Signal lines TOP and Bottom, inner layers Ground and PowerLow Noise LDO StabilizersSeparate power supply for all analog and digital lines (1.8V and 3.3V), 5 pcs IC voltage stabilizers are usedAdditionally, there is an RF Ferrite bead interchangeHigh-speed decoupling Level converter and TTL 5V matching Types of reference oscillators (optional, choose in selectors): XO – Crystal 20 or 25 MHz ±20 ppm internal oscillator with PLL at 1 GHzTCXO – 5-62.5MHz ±1 ppm internal oscillator with PLL at 1 GHzExt TCXO/OCXO – 5MHz – 62.5MHz ±1ppm external oscillator with the built-in AD9910 PLL enabled at 1 GHz(Overclocking up to 1.5 GHz)EXT OSC – external reference oscillator from 60 MHz up to 2 GHz (when the divider is set in the settings), NOT INCLUDEDAdditionally balancing transformer is used for TCXO/OCXO and EXT OSC options Functional features: Easy to connect OLED displayRotary Encoder for control via the program menuThe firmware allows you to select and configure the frequency of the clock generator through the user menu(without the need to recompile the program)Any settings can be stored in non-volatile EEPROM memory (located at Arduino Mega)Basic settings are applied and saved automaticallyExpanded and convenient DDS clock source menuOffset parameter allows adjusting the clock frequency if the deviation from the specified valueThis shield support overclocking the AD9910 core to 1.5 GHz (heatsink is recommended)DDS AD9910 Shield has ability to generate a signal up to 600 MHz with a core overclocking up to 1.5 GHz(to suppress harmonics it is recommended to overclock the AD9910 for frequencies above 400 MHz)It is possible to obtain a low frequency at the DDS output from 10 Hz (modification required, see instructions below)Has ability to increase output power by +4 dBm when “DAC Current HI” is activatedEnabling and disabling the output with a simple “OUTPUT ON/OFF” button press, confirmed by an indication on the OLED screen Electrical performance: Ensured low harmonic level with levels not exceeding -60dBc,this is due to the use of an output RF transformer for optimal current mirror operationLow-noise LDO stabilizers: 7 pieces of IC voltage regulators are usedSeparate power supply for all analog and digital lines (1.8 and 3.3V).Ferrite beads are also installed on each power line to isolate the power lines from each other4 layered PCB with signal lines on Top and Bottom and inner layers Ground and PowerHigh-speed decoupling Level converter and TTL 5V matchingRemote control of the DDS Generator through a USB connection and PC using the terminal serial port Specifications: Frequency:100 kHz – 420 MHz (600 MHz*)Spurs max:-60 dBcFrequency step:1 HzOutput power:+0 dBm (+4**) to -84 dBm (on 50 Ohm load)Output level up to:1 V peak-to-peak (at +4 dBm)Phase noise:-142 dBc/Hz @ 10 kHz offset (100 MHz Carrier)Output filter:LPF LC 7th Order 600 MHz cut-off (-3 dB)Modulation frequency for AM (Amplitude modulation):10 Hz to 100 kHz in 1 Hz stepAM modulation depth:0% to 100% in 1% incrementsModulation frequency for FM (Frequency modulation):10 Hz to 100 kHz in 1 Hz stepFM modulation deviation frequency:0 Hz to 100 kHz in 1 Hz stepReference clock sources (on choice):XO-Crystal Oscillator, TCXO 1ppm, External OCXO 0.1ppm, or External Oscillator up to 2 GHzReference clock Input Level (MIN):100 mVp-p or -16 dBmReference clock Input Level (MAX):2000 mVp-p or 10 dBmTrigger output level (TRG OUT):5VS-Curve Time to Frequency correspondence:1 ms corresponds to 1 kHz detuningS-Curve Bandwidth:3 kHz – 300 kHz, step 1 kHzLocal Oscillator mode IF list (±):450 kHz, 455 kHz, 465 kHz, 5.5 MHz, 6.5 MHz, 10.7 MHz, 21.4 MHz, 21.7 MHz, 38.4 MHz, 70 MHz, 90 MHz, 100 MHzPower requirements:USB or External Power Supply 7.5V DC 1AShield Board size:53 x 102 х 32 mm* When overclocking the core to 1.5 GHz** When the “DAC Current HI” function is activated Dear customers! If you have ANY questions, PLEASE ASK us Phase Noise: This parameter is very important and interesting for those who wants to buy DDS.Since the intrinsic phase noise of DDS is obviously less than that of PLL generators, the final value is highly dependent on the clock source.Designing our DDS AD9910 Shield for Arduino we strictly adhered to all recommendations from Analog Devices.This was done In order to achieve the values stated in the datasheet for the AD9910.Among these are PCB layout in 4 layers, separate power supply of all 4 power lines (3.3 V digital, 3.3 V analog, 1.8 V digital, and 1.8 V analog).Figure below shows the phase noise level when using the built-in PLL in DDS.The PLL multiplies the frequency of the on-board 50 MHz TCXO generator by a factor of 20. The output frequency is 100 MHz. Figure below shows the phase noise level when using an external reference clock frequency of 1 GHz (RCLN1000), with the PLL OFF.The output frequency of the DDS is 100 MHz. Let’s compare these two graphs, for example, at a 10 kHz offset from the carrier: with the internal PLL system engaged,the phase noise level is -130 dBc/Hz, while with the PLL system disengaged and using external clocking, the phase noise is -142 dBc/Hz.This means that using an external clock signal results in a phase noise that is 12 dBc/Hz better (lower).For the same output frequency, but at a 1 MHz offset from the carrier, with the internal PLL system engaged,the phase noise level is -125 dBc/Hz, while with the PLL system disengaged and using external clocking, the phase noise is -155 dBc/Hz.This means that using external clocking results in phase noise that is 30 dBc/Hz better (lower).Conclusion:When using external clock, you can get much lower phase noise than using the built-in PLL.But do not forget that in order to achieve such results, increased requirements are put forward to the external oscillator.For maximum performance we recommend our Ultra-low noise reference oscillator 1GHz RCLN1000. Ultra Low Noise Reference Oscillator for AD9910 Shield:1GHz Ultra Low Noise Reference Oscillator -130dBc/Hz @ 10kHz RCLN1000 for DDS AD9910 DDS9912 Units:https://www.ebay.com/itm/166141985560 If you need higher power output: The first and simplest method to increase the power from the nominal 0 dBm to +4 dBm is by activating the “Hi-Current” option in the menu (refer to Operation instruction).NOTE: enabling this setting leads to increase in harmonic levels of the output signal. If this level of power is still insufficient, there is a second method – connecting an external RF signal Amplifier, such as the MMIC MRFA89.It allows obtaining a DDS signal output power of up to +20 dBm.IMPORTANT: Since the MMIC MRFA89 Amplifier has maximum output power of +20 dBm and gain of 20 dB, the recommended maximum input signal level is 0 dBm.Therefore, the ‘Hi-Current’ parameter should be deactivated in the AD9910 Shield menu.NOTE: as most amplifiers generate harmonics, it is advised to connect an LPF Filter to the Amplifier output for harmonic suppression.For example, one from the LPF 7th Order Elliptical series that we offer. Amplifier and Filter for AD9910 Shield:RF Amplifier 8-2000 MHz, GAIN = 20 dB, P = +20 dBm MMIC MRFA89 SOT-89 [GOLD PLATED]:https://www.ebay.com/itm/165965022658Low-Pass Filter LPF 7th Order Elliptical 1-1000Mhz 3.5, 7, 14, 28, 144, 433MHz:https://www.ebay.com/itm/164902154239 OLED Display Menus: The switching of clock sources:The switching of clock sources is performed through the clock menu and is handled by an onboard software-controlled commutator.It does not require installing or removing any components on the board to switch between any clock sources except the XO (Crystal Oscillator).For clocking from the XO (Crystal Oscillator), in addition to activating the corresponding setting in the software menu, the installation of several components will also be required.See the table below:Clock sourceCapacitors (0805)Resistors (0R 0805)C18, C19 (33pF)C14, C17 (100nF)XOREFXO – Crystal Oscillator (20, 25 MHz)VXVXTCXO, Ext. TCXO/OCXO, Ext OSCXVXVWhere V means that the component must be installed (soldered), and X – means that the component must be removed Remote control of DDS Generator through USB connection from PC using the terminal serial port: List of Serial Port Commands:Starting with version 1.02, the ability to control via the serial port has been added.F – Set Frequency in Hz (100000 – 600000000)P – Set Output Power in dBm (-72 — 0 OR -68 — +4, depending on “DAC current”)E – Enable OutputD – Disable OutputM – Get ModelV – Get Firmware Versionh – Help; – Commands SeparatorExample:F100000;P-2Set Frequency to 100 kHz, and Output Power to -2 dBm.Any number of commands in any order is allowed. Serial Port Settings:Speed – 115200 BoudsData Bits – 8Stop Bits – 1Parity – NoDTR – OFF Windows:An example of setting up a serial port in the Windows console:mode COM3 baud=115200 DTR=OFF Data=8Usage example:echo F100000000 > COM3 Ubuntu 22.04:An example of setting up a serial port in the Ubuntu:sudo usermod -aG dialout $USER_NAME$sudo chmod a+rw /dev/ttyUSB0sudo stty -F /dev/ttyUSB0 115200 cs8 ixoff -hupcl -echoUsage example:echo “F100000000” > /dev/ttyUSB0 example of command prompt with serial commands for AD9910 DDS RF Unit DDS AD9910 Shield for Arduino Spectrograms: GRA & AFCH DDS AD9910 Shield VS DDS Board from China Spectrograms Comparison:Spectrum Analyzer Screenshots (200 MHz)Spectrum Analyzer Screenshots (350 MHz)Spectrum Analyzer Screenshots (100 MHz)Spectrum Analyzer Screenshots (10 MHz) GRA & AFCH DDS AD9910 Shield Spectrograms:500 MHz, DAC Current set to “HI”-600 MHz, DAC Current set to “HI” AM (Amplitude Modulation) Modulation Freq: 1kHz, Depth: 50%-FM (Frequency Modulation) Frequency: 1 kHz Deviation: 3 kHz AM (Amplitude Modulation) Carrier: 1 MHz Frequency: 100 kHz Depth: 50% DDS AD9910 Shield for Arduino Thermal images: AD9910 Board temperature measured with Flir E8 thermal imager at Core Clock @ 1000 MHz AD9910 Board temperature measured with Flir E8 thermal imager at Core Clock @ 1440 MHz DDS AD9910 Shield Board Connection Diagram: DDS AD9910 Shield RF Signal Generator by GRA & AFCH: Dear customers! If you have ANY questions, PLEASE ASK usShipping and Return information All Items are shipped from UkraineVia International registered AirmailShipments are made within 1 business dayAfter the payments are received and verifiedIt takes about 4-7 days via UPS Express deliveryIt takes about 10-18 days via Standard shippingIt takes about 35-45 days via Economy shippingWe combine multiple Items to save on shipping UPS Express Shipping time (recommended):Europe:3-5 daysGermany:3-5 daysUSA, Canada:4-7 daysAsia, South America:5-7 daysAustralia, New Zealand:5-7 daysAfrica, Central America:5-7 days Standard Shipping time:Europe:10-12 daysGermany:10-12 daysUSA, Canada:10-15 daysAsia, South America:10-18 daysAustralia, New Zealand:12-18 daysAfrica, Central America:12-18 days Economy Shipping time:Europe:25-30 daysGermany:25-30 daysUSA, Canada:30-35 daysAsia, South America:35-45 daysAustralia, New Zealand:45-55 daysAfrica, Central America:45-55 days Return PolicyAll Returns are acceptedFor Return you should contact Us within 14 Days after receiving the ItemRefunds are made as Money back or Replacements (buyer’s choice)Return Shipments are paid by the buyerNo restocking fees are charged Dear customers! If you have ANY questions, PLEASE ASK us