#!/usr/bin/env python # -*- coding: utf-8 -*- import sys import bluetooth import time class GSV4BT(): # https://www.manualslib.com/manual/1380505/Me-Gsv-4.html?page=30#manual scalings = { # (ID, value for 0xFFFF, unit) '2mV': (0x01, 2.1 , 'mV/V'), # Measuring range ±2 mV/V (set_gain 0xB2 ) with p1=ch, p2=0x01 '10mV': (0x02, 10.5, 'mV/V'), # Measuring range ±10 mV/V (set_gain 0xB2 ) with p1=ch, p2=0x02 '5V': (0x03, 5.25, 'V' ), # Measuring range 0-5 V (set_gain 0xB2 ) with p1=ch, p2=0x03 '10V': (0x07, 10.5, 'V' ), # Measuring range 0-10 V (set_gain 0xB2 ) with p1=ch, p2=0x07 'PT1000': (0x04, 1050, '°C' ), # Measuring range PT1000 (set_gain 0xB2 ) with p1=ch, p2=0x04 'K': (0x06, 1050, '°C' ) # Measuring range K-thermocouple cable (set_gain 0xB2 ) with p1=ch, p2=0x06 } channelModes = [ None, None, None, None ] values = [0] * 4 frequencies = [ # (ID, fNom in Hz, fEff in Hz) (0xA0, 0.63, 0.625), (0xA1, 1.25, 1.250), (0xA2, 2.5 , 2.500), (0xA3, 3.75, 3.750), (0xA4, 6.25, 6.250), (0xA5, 7.5 , 7.500), (0xA6, 12.5, 12.40), (0xA7, 15 , 14.7 ), (0xA8, 25 , 24.4 ), (0xA9, 125 , 125 ), (0xAA, 250 , 250 ), (0xAB, 500 , 500 ), (0xAC, 937.5, 900 ), ] def __init__(self, addr): self.addr = addr self.uuid = None self.sock = None self.requiresSetup = True def printError(self, msg, var = ""): print("ERROR: GSV4BT {}:".format(self.addr), msg, var) def printWarning(self, msg, var = ""): print("WARNING: GSV4BT {}:".format(self.addr), msg, var) def connect(self): if self.sock: return True service_matches = bluetooth.find_service(address=self.addr, uuid=bluetooth.SERIAL_PORT_CLASS) if len(service_matches) == 0: self.printError("BT device not found.") return False first_match = service_matches[0] self.port = first_match["port"] self.name = first_match["name"] self.host = first_match["host"] self.sock = bluetooth.BluetoothSocket(bluetooth.RFCOMM) try: ret = self.sock.connect((self.addr, self.port)) except bluetooth.btcommon.BluetoothError as e: self.printError(e) self.sock.close() self.sock = None return False self.printWarning("Connected to \"{}\" on {} port {}".format(self.name, self.host, self.port)) self.sock.settimeout(0.3) return True def isConnected(self): return self.sock != None def disconnect(self): if self.sock: self.sock.close() self.sock == None def sendRaw(self, data): if self.sock: try: self.sock.send(data) except bluetooth.btcommon.BluetoothError as e: self.printError("send", e) def sendCommand(self, code, *params): data = bytes([code] + list(params)) return self.sendRaw(data) def setNormalMode(self): return self.sendRaw(bytes([0x26, 0x01, 0x62, 0x65, 0x72, 0x6C, 0x69, 0x6E])) def getMode(self): self.sendCommand(0x27) return self.waitResponse(0x27) def getFirmwareVersion(self): self.sendCommand(0x2B) return self.waitResponse(0x2B) def getTxStatus(self): self.sendCommand(0x29) return self.waitResponse(0x29) # https://www.manualslib.com/manual/1380505/Me-Gsv-4.html?page=34#manual def setGain(self, channel, scalingName = '2mV'): self.channelModes[channel] = scalingName self.sendCommand(0xB2, channel, self.scalings[scalingName][0]) return self.waitResponse(0xB2) def setFrequency(self, freq = 10): for id, fNom, fEff in self.frequencies: value = id if freq < fEff: break self.sendCommand(0x12, value) return self.waitResponse(0x12) def startTransmission(self): self.sendCommand(0x24) return self.waitResponse(0x24) def stopTransmission(self): self.sendCommand(0x23) return self.waitResponse(0x23) def getValue(self): self.sendCommand(0x3B) lastFrameCarry = None def recvRaw(self): if not self.sock: return data = None try: data = self.sock.recv(1024) except bluetooth.btcommon.BluetoothError as e: self.printError("receive", e) if data == None: return if self.lastFrameCarry: data = self.lastFrameCarry + data self.lastFrameCarry = None i = 0 while i < len(data): prefix = data[i] start = i i += 1 end = data.find(b'\r\n', start) if end == -1: self.lastFrameCarry = data[start:] break else: i = end + 2 if prefix == 0xA5: # measured values if end+2 - start != 11: self.printError("invalid values frame: length {}".format(end+2-start), data[start:end+2]) continue self.parseValues(data[start+1:end]) elif prefix == 0x3B: # response if end+2 - start < 10: self.printError("invalid response frame: length {}".format(end+2-start), data[start:end+2]) continue code = int(data[start+1]) n = int(data[start+2]) length = int.from_bytes(data[start+3:start+5], 'big', signed=False) no = data[start+5:start+8].decode('ascii') if end+2 - start != length + 10: self.printError("incorrect response length field: {}".format(length), data[start:end+2]) continue self.parseResponse(code, n, no, data[start+8:end]) _valuesCb = None def setValuesCb(self, cb): self._valuesCb = cb def parseValues(self, data): for i in range(4): self.values[i] = int.from_bytes(data[i*2:i*2+2], 'big', signed=False) # map range to units if self.channelModes[i] == None: continue _, scale, unit = self.scalings[self.channelModes[i]] self.values[i] = (self.values[i] - 32768) / 32768 * scale if self._valuesCb: self._valuesCb(self.values) _respCode = None _respData = None def _responseCbWait(self, code, data): self._respCode = code self._respData = data _responseCb = None def setResponseCb(self, cb): self._responseCb = cb def waitResponse(self, sentCode): userRespCb = self._responseCb self._respCode = None self._respData = None self.setResponseCb(self._responseCbWait) self.recvRaw() if self._respCode == None: return None if self._respCode != sentCode: self.printError("invalid response code:", hex(self._respCode)) return None self.setResponseCb(userRespCb) return self._respData def parseResponse(self, code, n, no, data): if n > 1: self.printWarning("more than 1 response:", n-1) if self._responseCb: self._responseCb(code, data) def getForces(self): self.recvRaw() return self.values[0:3] def close(self): self.sock.close() if __name__ == "__main__": cell = GSV4BT("00:0B:CE:04:F6:66") def cb(values): print(values) while True: if cell.isConnected(): cell.recvRaw() else: cell.connect() cell.setNormalMode() cell.setFrequency(20) # Hz cell.setGain(0, '2mV') cell.setGain(1, '2mV') cell.setGain(2, '2mV') cell.setGain(3, '5V') cell.setValuesCb(cb) print(cell.getMode()) time.sleep(0.3)