Modulation Plugin
Contents
ToDos
- make sure each components freq. response, to make sure the highest freq.
- place DAC into this module board together, then only 4 wires(Vcc, I2C clk, Gnd & I2C data) from host.
- understand all components
- call sample
- draw circuit and PCB and grounding problem
- test by real circuit and firmware
Objectives
- The modulation module is used to deliver a digital output signal with the following characteristics:
- Square wave
- Variable frequency (>1kHz)
- Variable amplitude (0V - 2.5V)
- interface to MCU which do the control
Q: Is square wave where the "Lo" time is always at "GND" OK?
Q: If not, is a switch between "Lo is GND" vs. "Lo is negative Hi" OK? Or does "Lo" need to be independently controlled with another ADC?
Q: Will people be connecting a speaker directly to the output, requiring a relatively high-power output op amp such as the LM386N-3 ?
Software Solution
- Timer Interrupt controlling I2C 10-bit DAC can only achieve frequency response of about 1kHz
- 5byte/cmd
- 8bit/byte
- baudrate = 400kHz
- This yields 10kHz (0.1ms)
- As OS context switch is 10ms, set timer to 1ms (1kHz), so that 0.9ms can be used to process other tasks
- Due to higher freq. response requirement, so using hardware to implement the clock
Hardware Solution
Circuit
+-----+ +--------+ +--------+
I2C Bus | | | Analog | | Op-Amp |
------------+-----| DAC |------------| Switch |---------| |---------Output
| | | +--------+ +--------+
| +-----+ |
| |
| +--------------+ |
| | Programmable | |
+-----| Clock |-------+
+--------------+
This architecture allows the square wave to run at a very high frequency, even with a slow I2C and a slow DAC.
Circuit Simulation by Paul Falstad's Web
- Import the following
$ 1 5.0E-6 16.817414165184545 64 5.0 50 w 128 256 144 256 0 w 16 256 64 256 0 g 16 352 16 368 0 v 64 64 112 64 0 0 40.0 2.5 0.0 0.0 0.5 w 112 128 144 128 0 w 64 128 16 128 0 w 16 128 16 256 0 v 64 256 128 256 0 2 1000.0 1.65 1.65 0.0 0.5 a 336 144 464 144 1 3.3 0.0 w 336 160 336 192 0 w 464 192 464 144 0 w 464 144 512 144 0 r 592 144 592 256 0 1000.0 g 592 352 592 368 0 w 512 144 592 144 0 w 336 192 352 192 0 w 432 192 464 192 0 v 64 128 112 128 0 1 1.0 1.25 1.25 0.0 0.5 w 16 256 16 288 0 w 16 288 16 352 0 w 592 256 592 352 0 g 272 352 272 368 0 w 272 128 336 128 0 w 176 256 176 144 0 r 272 224 272 288 0 1000.0 w 272 128 272 224 0 w 272 288 272 352 0 159 144 128 208 128 0 r 208 128 256 128 0 1000.0 w 256 128 272 128 0 w 144 256 176 256 0 r 336 224 336 288 0 1000.0 g 336 352 336 368 0 w 336 288 336 352 0 w 336 192 336 224 0 r 352 192 432 192 0 1000.0 o 4 64 0 34 2.5 7.8125E-4 0 -1 o 0 64 0 35 5.0 9.765625E-5 1 -1 o 11 64 0 34 2.5 0.0015625 2 -1
Components Inside Circuit
DAC chip
- datasheet -- http://focus.ti.com/lit/ds/symlink/dac6574.pdf
CLK chip
| Part No. | Opertating Volt | Operating Freq | Min Volt | Max Volt | output freq | Min Temp | Max Temp | Pin |
|---|---|---|---|---|---|---|---|---|
| CY2545 | 2.5V, 3.0V, 3.3V | 400KHz | -0.5V | 4.5V | 3- 166 MHz | -40oC | 85oC | 24-pin |
| NIL | NIL | NIL | NIL | NIL | NIL | NIL | NIL | NIL |
CLK 1-8 : frequency output
CLK 3 : frequency selection (FS)
(Function 2) cy2545 has 4 PLLs, each PLLs can be set 2 frequency, CLK 3 use to select the frequency
CLK 6 : spread spectrum ON/OFF control input
(Function 2) for synthesizing and modulating the frequency
Vdd_CLK_BX (X=1,2,3) control the output frquency of Blanck X (X=1,2,3)
+------------------+
| | |------CLK 1
| |Blanck 1|
| | |------CLK 2
|------------------|
| | |------CLK 3
| |Blanck 2|------CLK 4
| | |------CLK 5
|------------------|
| | |------CLK 6
| |Blanck 3|------CLK 7
| | |------CLK 8
+------------------+
CLKIN/RST ---1. 2.5V/3.0V/3.3V external reference clock frequency
2. Reset function POR :back to default condition /
Clean Start : keep the programmed value
Xout Crystal frequency output
Xin/EXCLKIN Crystal frequency input/ 1.8V external clock input
- Coding
[Start Bit]->[7-bits devices]-->[R/W bit]-->[ Slave ]-->[ 8-bits ]--> .. [ address ] [ address ] [ ] [ CLK ACK ] [memory address] ..[ACK]-->[8-bits]-->[ 8-bits ]-->....[ 8-bits ]......until... [stop bit] [ ] [ data ] [data in MA+1] [data in MA+n] [ ]
analog switch
| Part No. | Operating Voltage | Min Volt | Max Volt | Frequency response | Propagation delay | Min Temp | Max Temp | Pin | Price(U.S.) |
|---|---|---|---|---|---|---|---|---|---|
| SN74LVC1G66YZPR | 1.65V~5.5V | -0.5V | 6.5V | 175MHz(3V),>300MHz(3V) (*1) | 0.8ns(3.3V) | -40oC | 85oC | 6-pin | 1:$0.48 100:$0.27 |
| SN74AHC4066DR | 2V~5V | -0.5V | 7V | 30MHz(3V) | 0.8ns(3.3V) | -40oC | 85oC | 14-pin | 1:$0.55 100:$0.33 |
(*1) different value of the RC circuit. ref. to the datasheet
more information about the series 74 in wiki: http://en.wikipedia.org/wiki/7400_series
op-amp buffer
- OPA340
