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mirror of https://github.com/kidoman/embd synced 2024-11-10 19:48:53 +01:00
embd/sensor/bmp180/bmp180.go
2014-03-03 00:51:23 +05:30

416 lines
8.0 KiB
Go

// Package bmp180 allows interfacing with Bosch BMP180 barometric pressure sensor. This sensor
// has the ability to provided compensated temperature and pressure readings.
package bmp180
import (
"log"
"math"
"sync"
"time"
"github.com/kidoman/embd"
)
const (
address = 0x77
calAc1 = 0xAA
calAc2 = 0xAC
calAc3 = 0xAE
calAc4 = 0xB0
calAc5 = 0xB2
calAc6 = 0xB4
calB1 = 0xB6
calB2 = 0xB8
calMB = 0xBA
calMC = 0xBC
calMD = 0xBE
control = 0xF4
tempData = 0xF6
pressureData = 0xF6
readTempCmd = 0x2E
readPressureCmd = 0x34
tempReadDelay = 5 * time.Millisecond
p0 = 101325
pollDelay = 250
)
type BMP180 struct {
Bus embd.I2CBus
Poll int
Debug bool
oss uint
ac1, ac2, ac3 int16
ac4, ac5, ac6 uint16
b1, b2, mb, mc, md int16
b5 int32
calibrated bool
cmu sync.RWMutex
temps chan uint16
pressures chan int32
altitudes chan float64
quit chan struct{}
}
func New(bus embd.I2CBus) *BMP180 {
return &BMP180{Bus: bus, Poll: pollDelay}
}
func (d *BMP180) calibrate() (err error) {
d.cmu.RLock()
if d.calibrated {
d.cmu.RUnlock()
return
}
d.cmu.RUnlock()
d.cmu.Lock()
defer d.cmu.Unlock()
readInt16 := func(reg byte) (value int16, err error) {
var v uint16
if v, err = d.Bus.ReadWordFromReg(address, reg); err != nil {
return
}
value = int16(v)
return
}
readUInt16 := func(reg byte) (value uint16, err error) {
var v uint16
if v, err = d.Bus.ReadWordFromReg(address, reg); err != nil {
return
}
value = uint16(v)
return
}
d.ac1, err = readInt16(calAc1)
if err != nil {
return
}
d.ac2, err = readInt16(calAc2)
if err != nil {
return
}
d.ac3, err = readInt16(calAc3)
if err != nil {
return
}
d.ac4, err = readUInt16(calAc4)
if err != nil {
return
}
d.ac5, err = readUInt16(calAc5)
if err != nil {
return
}
d.ac6, err = readUInt16(calAc6)
if err != nil {
return
}
d.b1, err = readInt16(calB1)
if err != nil {
return
}
d.b2, err = readInt16(calB2)
if err != nil {
return
}
d.mb, err = readInt16(calMB)
if err != nil {
return
}
d.mc, err = readInt16(calMC)
if err != nil {
return
}
d.md, err = readInt16(calMD)
if err != nil {
return
}
d.calibrated = true
if d.Debug {
log.Print("bmp085: calibration data retrieved")
log.Printf("bmp085: param AC1 = %v", d.ac1)
log.Printf("bmp085: param AC2 = %v", d.ac2)
log.Printf("bmp085: param AC3 = %v", d.ac3)
log.Printf("bmp085: param AC4 = %v", d.ac4)
log.Printf("bmp085: param AC5 = %v", d.ac5)
log.Printf("bmp085: param AC6 = %v", d.ac6)
log.Printf("bmp085: param B1 = %v", d.b1)
log.Printf("bmp085: param B2 = %v", d.b2)
log.Printf("bmp085: param MB = %v", d.mb)
log.Printf("bmp085: param MC = %v", d.mc)
log.Printf("bmp085: param MD = %v", d.md)
}
return
}
func (d *BMP180) readUncompensatedTemp() (temp uint16, err error) {
if err = d.Bus.WriteByteToReg(address, control, readTempCmd); err != nil {
return
}
time.Sleep(tempReadDelay)
if temp, err = d.Bus.ReadWordFromReg(address, tempData); err != nil {
return
}
return
}
func (d *BMP180) calcTemp(utemp uint16) uint16 {
x1 := ((int(utemp) - int(d.ac6)) * int(d.ac5)) >> 15
x2 := (int(d.mc) << 11) / (x1 + int(d.md))
d.cmu.Lock()
d.b5 = int32(x1 + x2)
d.cmu.Unlock()
return uint16((d.b5 + 8) >> 4)
}
func (d *BMP180) measureTemp() (temp uint16, err error) {
if err = d.calibrate(); err != nil {
return
}
var utemp uint16
if utemp, err = d.readUncompensatedTemp(); err != nil {
return
}
if d.Debug {
log.Printf("bcm085: uncompensated temp: %v", utemp)
}
temp = d.calcTemp(utemp)
if d.Debug {
log.Printf("bcm085: compensated temp %v", temp)
}
return
}
// Temperature returns the current temperature reading.
func (d *BMP180) Temperature() (temp float64, err error) {
select {
case t := <-d.temps:
temp = float64(t) / 10
return
default:
if d.Debug {
log.Print("bcm085: no temps available... measuring")
}
var t uint16
t, err = d.measureTemp()
if err != nil {
return
}
temp = float64(t) / 10
return
}
}
func (d *BMP180) readUncompensatedPressure() (pressure uint32, err error) {
if err = d.Bus.WriteByteToReg(address, control, byte(readPressureCmd+(d.oss<<6))); err != nil {
return
}
time.Sleep(time.Duration(2+(3<<d.oss)) * time.Millisecond)
data := make([]byte, 3)
if err = d.Bus.ReadFromReg(address, pressureData, data); err != nil {
return
}
pressure = ((uint32(data[0]) << 16) | (uint32(data[1]) << 8) | uint32(data[2])) >> (8 - d.oss)
return
}
func (d *BMP180) calcPressure(upressure uint32) (p int32) {
var x1, x2, x3 int32
l := func(s string, v interface{}) {
if d.Debug {
log.Printf("bcm085: %v = %v", s, v)
}
}
b6 := d.b5 - 4000
l("b6", b6)
// Calculate b3
x1 = (int32(d.b2) * int32(b6*b6) >> 12) >> 11
x2 = (int32(d.ac2) * b6) >> 11
x3 = x1 + x2
b3 := (((int32(d.ac1)*4 + x3) << d.oss) + 2) >> 2
l("x1", x1)
l("x2", x2)
l("x3", x3)
l("b3", b3)
// Calculate b4
x1 = (int32(d.ac3) * b6) >> 13
x2 = (int32(d.b1) * ((b6 * b6) >> 12)) >> 16
x3 = ((x1 + x2) + 2) >> 2
b4 := (uint32(d.ac4) * uint32(x3+32768)) >> 15
l("x1", x1)
l("x2", x2)
l("x3", x3)
l("b4", b4)
b7 := (uint32(upressure-uint32(b3)) * (50000 >> d.oss))
if b7 < 0x80000000 {
p = int32((b7 << 1) / b4)
} else {
p = int32((b7 / b4) << 1)
}
l("b7", b7)
l("p", p)
x1 = (p >> 8) * (p >> 8)
x1 = (x1 * 3038) >> 16
x2 = (-7357 * p) >> 16
p += (x1 + x2 + 3791) >> 4
l("x1", x1)
l("x2", x2)
l("x3", x3)
l("p", p)
return
}
func (d *BMP180) calcAltitude(pressure int32) float64 {
return 44330 * (1 - math.Pow(float64(pressure)/p0, 0.190295))
}
func (d *BMP180) measurePressureAndAltitude() (pressure int32, altitude float64, err error) {
if err = d.calibrate(); err != nil {
return
}
var upressure uint32
if upressure, err = d.readUncompensatedPressure(); err != nil {
return
}
if d.Debug {
log.Printf("bcm085: uncompensated pressure: %v", upressure)
}
pressure = d.calcPressure(upressure)
if d.Debug {
log.Printf("bcm085: compensated pressure %v", pressure)
}
altitude = d.calcAltitude(pressure)
if d.Debug {
log.Printf("bcm085: calculated altitude %v", altitude)
}
return
}
// Pressure returns the current pressure reading.
func (d *BMP180) Pressure() (pressure int, err error) {
if err = d.calibrate(); err != nil {
return
}
select {
case p := <-d.pressures:
pressure = int(p)
return
default:
if d.Debug {
log.Print("bcm085: no pressures available... measuring")
}
var p int32
p, _, err = d.measurePressureAndAltitude()
if err != nil {
return
}
pressure = int(p)
return
}
}
// Altitude returns the current altitude reading.
func (d *BMP180) Altitude() (altitude float64, err error) {
if err = d.calibrate(); err != nil {
return
}
select {
case altitude = <-d.altitudes:
return
default:
if d.Debug {
log.Print("bcm085: no altitudes available... measuring")
}
_, altitude, err = d.measurePressureAndAltitude()
if err != nil {
return
}
return
}
}
// Run starts the sensor data acquisition loop.
func (d *BMP180) Run() (err error) {
go func() {
d.quit = make(chan struct{})
timer := time.Tick(time.Duration(d.Poll) * time.Millisecond)
var temp uint16
var pressure int32
var altitude float64
for {
select {
case <-timer:
t, err := d.measureTemp()
if err == nil {
temp = t
}
if err == nil && d.temps == nil {
d.temps = make(chan uint16)
}
p, a, err := d.measurePressureAndAltitude()
if err == nil {
pressure = p
altitude = a
}
if err == nil && d.pressures == nil && d.altitudes == nil {
d.pressures = make(chan int32)
d.altitudes = make(chan float64)
}
case d.temps <- temp:
case d.pressures <- pressure:
case d.altitudes <- altitude:
case <-d.quit:
d.temps = nil
d.pressures = nil
d.altitudes = nil
return
}
}
}()
return
}
// Close.
func (d *BMP180) Close() {
if d.quit != nil {
d.quit <- struct{}{}
}
}