| 0,0 → 1,104 |
|---|
| #!/usr/bin/python |
| |
| # Python example of use pymlab with LIONCELL MLAB module |
| |
| import time |
| import sys |
| from pymlab import config |
| |
| import pandas as pd # data parsing library |
| import struct |
| |
| filename = './guage.csv' |
| |
| df = pd.read_csv(filename,delimiter=',') |
| |
| def ReadFlash(ID, offset, name, typ, units, default): |
| flash = guage.ReadFlashBlock(ID, offset // 32) |
| print ID, '\t', offset, '\t', '"', '{:32s}'.format(name), '"', '\t', typ, '\t', |
| # if (offset // 32) > 0 : |
| offset = offset - 32 * (offset // 32) |
| if typ == 'U1': |
| print '{:10d}'.format(flash[offset]), |
| if typ == 'I1': |
| if flash[offset] > 127: |
| ble = (256-flash[offset]) * (-1) |
| else: |
| ble = flash[offset] |
| print '{:10d}'.format(ble), |
| if typ == 'I2': |
| ble = (flash[offset]<<8)+flash[offset+1] |
| if ble > 32767: |
| ble = (65536-ble) * (-1) |
| print '{:10d}'.format(ble), |
| if typ == 'U2': |
| print '{:10d}'.format(abs((flash[offset]<<8)+flash[offset+1])), |
| if typ == 'F4': |
| print '{:10s}'.format(hex(0x1000000*flash[offset]+0x10000*flash[(offset+1)]+0x100*flash[(offset+2)]+flash[(offset+3)])), |
| #print '{:10f}'.format(struct.unpack('@f', chr(flash[offset])+chr(flash[offset+1])+chr(flash[offset+2])+chr(flash[offset+3]))[0]), |
| if typ == 'H1': |
| print '{:10s}'.format(hex(flash[(offset)])), |
| if typ == 'H2': |
| print '{:10s}'.format(hex(0x100*flash[(offset)]+flash[(offset+1)])), |
| if typ == 'H4': |
| print '{:10s}'.format(hex(0x1000000*flash[offset]+0x10000*flash[(offset+1)]+0x100*flash[(offset+2)]+flash[(offset+3)])), |
| if typ == 'S9': |
| string = '' |
| for n in range(9): |
| string = string + chr(flash[offset+n+1]) |
| print '{:12s}'.format(string+'\0'), |
| if typ == 'S12': |
| string = '' |
| for n in range(9): |
| string = string + chr(flash[offset+n+1]) |
| print '{:12s}'.format(string+'...\0'), |
| if typ == 'S5': |
| string = '' |
| for n in range(5): |
| string = string + chr(flash[offset+n+1]) |
| print '{:12s}'.format(string+'\0'), |
| print '{:10s}'.format('['+units+']'), '\t', default, '{:10s}'.format('['+units+']') |
| |
| |
| #### Sensor Configuration ########################################### |
| cfg = config.Config( |
| i2c = { |
| "port": 0, # I2C bus number |
| }, |
| |
| bus = [ |
| { |
| "type": "i2chub", |
| "address": 0x73, |
| |
| "children": [ |
| {"name": "guage", "type": "lioncell", "channel": 7, }, |
| ], |
| }, |
| ], |
| ) |
| |
| |
| cfg.initialize() |
| guage = cfg.get_device("guage") |
| |
| print "Pack Configuration", hex(guage.PackConfiguration()) |
| |
| #flash = guage.ReadFlashBlock(112, 0) |
| #print "112 - ", |
| #print " ".join([hex(i) for i in flash]) |
| |
| #ReadFlash(2, 0, 'OT Chg', 'I2', '0.1 degC') |
| #ReadFlash(112, 8, 'Authen Key3', 'H4', '-') |
| |
| for i in range(len(df)): |
| ReadFlash(df['SubclassID'][i], df['Offset'][i], df['Name'][i], df['DataType'][i], df['Units'][i], df['DefaultValue'][i]) |
| |
| |
| while True: |
| # Battery status readout |
| print "NominalAvailableCapacity =", guage.NominalAvailableCapacity(), "mAh, FullAvailabeCapacity =", guage.FullAvailabeCapacity(), "mAh, AvailableEnergy =", guage.AvailableEnergy(), "* 10 mWh" |
| print "Temp =", guage.getTemp(), "degC, RemainCapacity =", guage.getRemainingCapacity(), "mAh, cap =", guage.FullChargeCapacity(), "mAh, U =", guage.Voltage(), "mV, I =", guage.AverageCurrent(), "mA, charge =", guage.StateOfCharge(), "%" |
| time.sleep(3) |
| |
| |