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{{ProjektInfoBox | {{ProjektInfoBox | ||
|name | |name=AD9911DDS | ||
|status | |status=experimental | ||
|image | |image=AD9911_devboard.jpg | ||
|description = Direct Digital Synthesizer | |description=Direct Digital Synthesizer | ||
| | |username=siro | ||
| | |author=siro | ||
|version | |version=0.1<br> | ||
|update | |update=18 Dez. 2013 | ||
|platform=* | |||
|platform | |license=GPL | ||
|license | |download=https://github.com/siro20/AD9911 | ||
|download | |tags=Audio, | ||
}} | }} | ||
== AD9911DDS == | == AD9911DDS == | ||
This project describes the AD9911 Direct Digital Synthesizer. It is capable of generating a sine-wave between 250Mhz and >1Hz. | This project describes the AD9911 Direct Digital Synthesizer. It is capable of generating a sine-wave between 250Mhz and >1Hz. | ||
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* toogle I/O-Update pin | * toogle I/O-Update pin | ||
https://github.com/siro20/AD9911 | |||
=== Changes applied to Hardware === | === Changes applied to Hardware === | ||
* pull PWR_DWN_CTL low | * pull PWR_DWN_CTL low | ||
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=== Results === | === Results === | ||
Test Results: | |||
* third order 200Mhz low pass | |||
* LeCroy Waverunner 1GSPS | |||
* 5V PowerSupply | |||
* SingleTone Mode | |||
[[Datei:AD9911 devboard.jpg|miniatur|AD9911 Devboard PCB soldered]] | [[Datei:AD9911 devboard.jpg|miniatur|AD9911 Devboard PCB soldered]] | ||
[[Datei:Dds 200.png|300px]] | |||
[[Datei:Dds 160.png|300px]] | |||
[[Datei:Dds 100.png|300px]] | |||
[[Datei:Dds 10.png|300px]] | |||
Aktuelle Version vom 7. April 2017, 23:43 Uhr
| AD9911DDS Release status: experimental [box doku] | |
|---|---|
| |
| Description | Direct Digital Synthesizer |
| Author(s) | siro |
| Last Version | 0.1 |
| Platform | * |
| License | GPL |
| Download | https://github.com/siro20/AD9911 |
AD9911DDS[Bearbeiten | Quelltext bearbeiten]
This project describes the AD9911 Direct Digital Synthesizer. It is capable of generating a sine-wave between 250Mhz and >1Hz. The created evaluation unit is descripted here.
The Hardware[Bearbeiten | Quelltext bearbeiten]
- CLK_MODE_SEL = 1.8V
- Rset = 1k91
- crystal 25Mhz
- DVDD 1.8V
- AVDD 1.8V
- DVIO 3.3V
- SDIO_0 MOSI
- SDIO_2 MISO
- PLL 20x, 500MSPS DAC
- maximum frequency possible 250Mhz
- maximum frequency recommended 150Mhz
- low pass required
- active current 120mA
- output AC coupled
channels[Bearbeiten | Quelltext bearbeiten]
There are four channels:
- channel 0: aux channel
- channel 1: primary channel
- channel 2: aux channel
- channel 3: aux channel
channel 1 is connected to the DAC. all aux channels are capable of modulating channel 1.
modes of operation[Bearbeiten | Quelltext bearbeiten]
- single tone (frequency,amplitude,phase adjustable)
- 2 tone test mode (amplitude modulated single tone)
- 2/4/8/16 FSK/ASK/PSK
- frequency/amplitude/phase ramp up
- frequency/amplitude/phase ramp down
- frequency/amplitude/phase sweep
SPI interface[Bearbeiten | Quelltext bearbeiten]
default
2-wire SPI mode, SDIO_0 is bidirectional !
- SPI write
- CPOL=0
- CPHA=0
- SPI read
- CPOL=1
- CPHA=1
3-wire SPI mode
- configure 3-wire SPI mode using reg 0
- set msb mode (default) using reg 0
- SDIO_0 is MOSI
- SDIO_2 is MISO
MSB/LSB mode
- MSB
- the Most Significant Bit is transfered first
- the Most Significant Byte is transfered first
- LSB
- the Least Significant Bit is transfered first
- the Least Significant Byte is transfered first
register select
- register 0, 1, 2 are independent
- channel register 0x03 - 0x18 are written to using the enable bits in register 0
- you can write to multiple channels at once !
*TODO upload files*
The Software[Bearbeiten | Quelltext bearbeiten]
I've created a simple programm that runs on teensy 2.0 (ATMEGA32U4). It should run on any ATmega, just change the I/O ports.
Timings are not critical, as the ATmega is much slower than the maximum I/O updaterate of the AD9911.
Software flow:
- write register 0 (channel select bits)
- write register 1 and 2 (digital power down, pll multiplier)
- write to selected channel registers 0x03 - 0x18
- toogle I/O-Update pin
https://github.com/siro20/AD9911
Changes applied to Hardware[Bearbeiten | Quelltext bearbeiten]
- pull PWR_DWN_CTL low
- pull SDIO_3 low
- terminate IDAC with 50 Ohms agains AVCC
- terminate !IDAC with 50 Ohms agains AVCC
- include a 5th order low pass filter
- include a transformer
- series resistance for SPI interface
Results[Bearbeiten | Quelltext bearbeiten]
Test Results:
- third order 200Mhz low pass
- LeCroy Waverunner 1GSPS
- 5V PowerSupply
- SingleTone Mode
