#include "LedDeviceWs2812_ftdi.h"
/*
From the data sheet:
(TH+TL=1.25μs±600ns)
T0H, 0 code, high level time, 0.40µs ±0.150ns
T0L, 0 code, low level time, 0.85µs ±0.150ns
T1H, 1 code, high level time, 0.80µs ±0.150ns
T1L, 1 code, low level time, 0.45µs ±0.150ns
WT, Wait for the processing time, NA
Trst, Reset code,low level time, 50µs (not anymore... need 300uS for latest revision)
To normalise the pulse times so they fit in 4 SPI bits:
On the assumption that the "low" time doesnt matter much
A SPI bit time of 0.40uS = 2.5 Mbit/sec
T0 is sent as 1000
T1 is sent as 1100
With a bit of excel testing, we can work out the maximum and minimum speeds:
2106000 MIN
2590500 AVG
3075000 MAX
Wait time:
Not Applicable for WS2812
Reset time:
using the max of 3075000, the bit time is 0.325
Reset time is 300uS = 923 bits = 116 bytes
*/
LedDeviceWs2812_ftdi::LedDeviceWs2812_ftdi(const QJsonObject &deviceConfig)
: ProviderFtdi(deviceConfig),
SPI_BYTES_PER_COLOUR(4),
SPI_FRAME_END_LATCH_BYTES(116),
bitpair_to_byte{
0b10001000,
0b10001100,
0b11001000,
0b11001100,
}
{
}
LedDevice *LedDeviceWs2812_ftdi::construct(const QJsonObject &deviceConfig)
{
return new LedDeviceWs2812_ftdi(deviceConfig);
}
bool LedDeviceWs2812_ftdi::init(const QJsonObject &deviceConfig)
{
bool isInitOK = false;
// Initialise sub-class
if (ProviderFtdi::init(deviceConfig))
{
WarningIf((_baudRate_Hz < 2106000 || _baudRate_Hz > 3075000), _log, "SPI rate %d outside recommended range (2106000 -> 3075000)", _baudRate_Hz);
_ledBuffer.resize(_ledRGBCount * SPI_BYTES_PER_COLOUR + SPI_FRAME_END_LATCH_BYTES, 0x00);
isInitOK = true;
}
return isInitOK;
}
int LedDeviceWs2812_ftdi::write(const std::vector<ColorRgb> &ledValues)
{
unsigned spi_ptr = 0;
const int SPI_BYTES_PER_LED = sizeof(ColorRgb) * SPI_BYTES_PER_COLOUR;
if (_ledCount != ledValues.size())
{
Warning(_log, "Led's number has changed (old: %d, new: %d). Rebuilding buffer.", _ledCount, ledValues.size());
_ledCount = ledValues.size();
_ledBuffer.resize(0, 0x00);
_ledBuffer.resize(_ledRGBCount * SPI_BYTES_PER_COLOUR + SPI_FRAME_END_LATCH_BYTES, 0x00);
}
for (const ColorRgb &color : ledValues)
{
uint32_t colorBits = ((unsigned int)color.red << 16) | ((unsigned int)color.green << 8) | color.blue;
for (int j = SPI_BYTES_PER_LED - 1; j >= 0; j--)
{
_ledBuffer[spi_ptr + j] = bitpair_to_byte[colorBits & 0x3];
colorBits >>= 2;
}
spi_ptr += SPI_BYTES_PER_LED;
}
for (int j = 0; j < SPI_FRAME_END_LATCH_BYTES; j++)
{
_ledBuffer[spi_ptr++] = 0;
}
return writeBytes(_ledBuffer.size(), _ledBuffer.data());
}