XCVMMOD.tlk Driver Reference
Circutor CVM-BD-M Modbus RTU Protocol Driver
This driver requires that you have TAS-HMITalk 8.04 installed.
El driver XCVMMOD permite comunicarse con los medidores de energia
CIRCUTOR de la serie CVM-BD-M mediante el protocolo Modbus RTU.
Este driver ha sido elaborado de acuerdo al documento interno numero
0049 con fecha 23/10/2001 del Grupo Circutor. Implementa comandos
tanto para la lectura y escritura de registros como para la bajada
de la memoria del equipo.
Power Meters
CIRCUTOR Power Meter CVM-BD-M
Leer numero de serie del equipo
Leer version del software del equipo
Lectura de variables electricas trifasico instantaneas
Lectura de variables electricas trifasico maximas
Lectura de variables electricas trifasico minimas
Lectura de los puntos del convertidor
Lectura del estado de las salidas digitales
Seteo del estado de una salida digital
Lectura del estado del teclado
Seteo del flag de test de ganancias
Seleccion de variables a registrar (CVT)
Lectura del seteo del trigger (CVT)
Establecer seteo del trigger (CVT)
Lectura del tiempo de registro actual (CVT)
Establecer tiempo de registro (CVT)
Leer cabecera de la memoria (CVT)
Leer punteros y cantidad de registros (CVT y CVP)
Resetear puntero al inicio (CVT)
Leer registros de la memoria (CVT)
Leer registros de eventos (CVP)
Descomposicion armonica de Corriente 1
Descomposicion armonica de Corriente 2
Descomposicion armonica de Corriente 3
Descomposicion armonica de Tension 1
Descomposicion armonica de Tension 2
Descomposicion armonica de Tension 3
COMMAND DESCRIPTION:
Lee un valor tipo long conteniendo el numero de serie del
equipo.
PROPERTY SETTINGS REQUIRED:
HMITalk1.DriverDataType = Analog Input
HMITalk1.DriverNumPoints = 1
HMITalk1.DriverP0 = Unit Address (1-255).
HMITalk1.DriverP1 = 16
RETURNS:
- HMITalk1.PointValue(0) = Numero de serie del equipo
COMMAND DESCRIPTION:
Lee una cadena de 6 caracteres conteniendo la version de
software del equipo y la entrega como 6 codigos ASCII
individuales.
PROPERTY SETTINGS REQUIRED:
HMITalk1.DriverDataType = Analog Input
HMITalk1.DriverNumPoints = 6
HMITalk1.DriverP0 = Unit Address (1-255).
HMITalk1.DriverP1 = 17
RETURNS:
- HMITalk1.PointValue(0) = Codigo ASCII del primer caracter
- HMITalk1.PointValue(1) = Codigo ASCII del segundo caracter
- HMITalk1.PointValue(2) = Codigo ASCII del tercer caracter
- HMITalk1.PointValue(3) = Codigo ASCII del cuarto caracter
- HMITalk1.PointValue(4) = Codigo ASCII del quinto caracter
- HMITalk1.PointValue(5) = Codigo ASCII del sexto caracter
COMMAND DESCRIPTION:
Lee un paquete de 59 mediciones conteniendo las
mediciones instantaneas de las variables electricas trifasico.
PROPERTY SETTINGS REQUIRED:
HMITalk1.DriverDataType = Analog Input
HMITalk1.DriverNumPoints = 59
HMITalk1.DriverP0 = Unit Address (1-255).
HMITalk1.DriverP1 = 0
RETURNS:
- HMITalk1.PointValue(0) = Tension fase [V]
- HMITalk1.PointValue(1) = Corriente [mA]
- HMITalk1.PointValue(2) = Potencia activa [W]
- HMITalk1.PointValue(3) = Potencia reactiva inductiva [W]
- HMITalk1.PointValue(4) = Potencia reactiva capacitiva [W]
- HMITalk1.PointValue(5) = Factor de potencia [adim]
- HMITalk1.PointValue(6) = Tension fase [V]
- HMITalk1.PointValue(7) = Corriente [mA]
- HMITalk1.PointValue(8) = Potencia activa [W]
- HMITalk1.PointValue(9) = Potencia reactiva inductiva [W]
- HMITalk1.PointValue(10) = Potencia reactiva capacitiva [W]
- HMITalk1.PointValue(11) = Factor de potencia [adim]
- HMITalk1.PointValue(12) = Tension fase [V]
- HMITalk1.PointValue(13) = Corriente [mA]
- HMITalk1.PointValue(14) = Potencia activa [W]
- HMITalk1.PointValue(15) = Potencia reactiva inductiva [W]
- HMITalk1.PointValue(16) = Potencia reactiva capacitiva [W]
- HMITalk1.PointValue(17) = Factor de potencia [adim]
- HMITalk1.PointValue(18) = Tension promedio [V]
- HMITalk1.PointValue(19) = Corriente promedio [mA]
- HMITalk1.PointValue(20) = Potencia activa trifasica [W]
- HMITalk1.PointValue(21) = Potencia inductiva trifasica [W]
- HMITalk1.PointValue(22) = Potencia capacitiva trifasica [W]
- HMITalk1.PointValue(23) = Factor de potencia trifasico [adim]
- HMITalk1.PointValue(24) = Frecuencia (L1) [Hz]
- HMITalk1.PointValue(25) = Potencia aparente trifasica [W]
- HMITalk1.PointValue(26) = Tension linea L1-L2 [V]
- HMITalk1.PointValue(27) = Tension linea L2-L3 [V]
- HMITalk1.PointValue(28) = Tension linea L3-L1 [V]
- HMITalk1.PointValue(29) = Tension promedio compuesta [V]
- HMITalk1.PointValue(30) = Hora [adim]
- HMITalk1.PointValue(31) = Energia activa T1 (+) [Wh]
- HMITalk1.PointValue(32) = Energia reactivainductiva T1 (+) [Wh]
- HMITalk1.PointValue(33) = Energia reactiva capacitiva T1 (+) [Wh]
- HMITalk1.PointValue(34) = Maxima demanda T1 [W/VA]
- HMITalk1.PointValue(35) = Energia activa T1 (-) [Wh]
- HMITalk1.PointValue(36) = Energia reactiva inductiva T1 (-) [Wh]
- HMITalk1.PointValue(37) = Energia reactiva capacitiva T1 (-) [Wh]
- HMITalk1.PointValue(38) = Energia activa T2 (+) [Wh]
- HMITalk1.PointValue(39) = Energia reactiva inductiva T2 (+) [Wh]
- HMITalk1.PointValue(40) = Energia reactiva capacitiva T2 (+) [Wh]
- HMITalk1.PointValue(41) = Maxima demanda T2 [W/VA]
- HMITalk1.PointValue(42) = Energia activa T2 (-) [Wh]
- HMITalk1.PointValue(43) = Energia reactiva inductiva T2 (-) [Wh]
- HMITalk1.PointValue(44) = Energia reactiva capacitiva T2 (-) [Wh]
- HMITalk1.PointValue(45) = Energia activa T3 (+) [Wh]
- HMITalk1.PointValue(46) = Energia reactiva inductiva T3 (+) [Wh]
- HMITalk1.PointValue(47) = Energia reactiva capacitiva T3 (+) [Wh]
- HMITalk1.PointValue(48) = Maxima demanda T3 [W/VA]
- HMITalk1.PointValue(49) = Energia activa T3 (-) [Wh]
- HMITalk1.PointValue(50) = Energia reactiva i nductiva T3 (-) [Wh]
- HMITalk1.PointValue(51) = Energia reactiva capacitiva T3 (-) [Wh]
- HMITalk1.PointValue(52) = Intensidad de neutro [mA]
- HMITalk1.PointValue(53) = %THD V 1 [%]
- HMITalk1.PointValue(54) = %THD V 2 [%]
- HMITalk1.PointValue(55) = %THD V 3 [%]
- HMITalk1.PointValue(56) = %THD I 1 [%]
- HMITalk1.PointValue(57) = %THD I 2 [%]
- HMITalk1.PointValue(58) = %THD I 3 [%]
COMMAND DESCRIPTION:
Lee un paquete de 59 mediciones conteniendo los
maximos de las variables electricas trifasico.
PROPERTY SETTINGS REQUIRED:
HMITalk1.DriverDataType = Analog Input
HMITalk1.DriverNumPoints = 59
HMITalk1.DriverP0 = Unit Address (1-255).
HMITalk1.DriverP1 = 1
RETURNS:
- HMITalk1.PointValue(0) = Tension fase [V]
- HMITalk1.PointValue(1) = Corriente [mA]
- HMITalk1.PointValue(2) = Potencia activa [W]
- HMITalk1.PointValue(3) = Potencia reactiva inductiva [W]
- HMITalk1.PointValue(4) = Potencia reactiva capacitiva [W]
- HMITalk1.PointValue(5) = Factor de potencia [adim]
- HMITalk1.PointValue(6) = Tension fase [V]
- HMITalk1.PointValue(7) = Corriente [mA]
- HMITalk1.PointValue(8) = Potencia activa [W]
- HMITalk1.PointValue(9) = Potencia reactiva inductiva [W]
- HMITalk1.PointValue(10) = Potencia reactiva capacitiva [W]
- HMITalk1.PointValue(11) = Factor de potencia [adim]
- HMITalk1.PointValue(12) = Tension fase [V]
- HMITalk1.PointValue(13) = Corriente [mA]
- HMITalk1.PointValue(14) = Potencia activa [W]
- HMITalk1.PointValue(15) = Potencia reactiva inductiva [W]
- HMITalk1.PointValue(16) = Potencia reactiva capacitiva [W]
- HMITalk1.PointValue(17) = Factor de potencia [adim]
- HMITalk1.PointValue(18) = Tension promedio [V]
- HMITalk1.PointValue(19) = Corriente promedio [mA]
- HMITalk1.PointValue(20) = Potencia activa trifasica [W]
- HMITalk1.PointValue(21) = Potencia inductiva trifasica [W]
- HMITalk1.PointValue(22) = Potencia capacitiva trifasica [W]
- HMITalk1.PointValue(23) = Factor de potencia trifasico [adim]
- HMITalk1.PointValue(24) = Frecuencia (L1) [Hz]
- HMITalk1.PointValue(25) = Potencia aparente trifasica [W]
- HMITalk1.PointValue(26) = Tension linea L1-L2 [V]
- HMITalk1.PointValue(27) = Tension linea L2-L3 [V]
- HMITalk1.PointValue(28) = Tension linea L3-L1 [V]
- HMITalk1.PointValue(29) = Tension promedio compuesta [V]
- HMITalk1.PointValue(30) = Hora [adim]
- HMITalk1.PointValue(31) = Energia activa T1 (+) [Wh]
- HMITalk1.PointValue(32) = Energia reactivainductiva T1 (+) [Wh]
- HMITalk1.PointValue(33) = Energia reactiva capacitiva T1 (+) [Wh]
- HMITalk1.PointValue(34) = Maxima demanda T1 [W/VA]
- HMITalk1.PointValue(35) = Energia activa T1 (-) [Wh]
- HMITalk1.PointValue(36) = Energia reactiva inductiva T1 (-) [Wh]
- HMITalk1.PointValue(37) = Energia reactiva capacitiva T1 (-) [Wh]
- HMITalk1.PointValue(38) = Energia activa T2 (+) [Wh]
- HMITalk1.PointValue(39) = Energia reactiva inductiva T2 (+) [Wh]
- HMITalk1.PointValue(40) = Energia reactiva capacitiva T2 (+) [Wh]
- HMITalk1.PointValue(41) = Maxima demanda T2 [W/VA]
- HMITalk1.PointValue(42) = Energia activa T2 (-) [Wh]
- HMITalk1.PointValue(43) = Energia reactiva inductiva T2 (-) [Wh]
- HMITalk1.PointValue(44) = Energia reactiva capacitiva T2 (-) [Wh]
- HMITalk1.PointValue(45) = Energia activa T3 (+) [Wh]
- HMITalk1.PointValue(46) = Energia reactiva inductiva T3 (+) [Wh]
- HMITalk1.PointValue(47) = Energia reactiva capacitiva T3 (+) [Wh]
- HMITalk1.PointValue(48) = Maxima demanda T3 [W/VA]
- HMITalk1.PointValue(49) = Energia activa T3 (-) [Wh]
- HMITalk1.PointValue(50) = Energia reactiva i nductiva T3 (-) [Wh]
- HMITalk1.PointValue(51) = Energia reactiva capacitiva T3 (-) [Wh]
- HMITalk1.PointValue(52) = Intensidad de neutro [mA]
- HMITalk1.PointValue(53) = %THD V 1 [%]
- HMITalk1.PointValue(54) = %THD V 2 [%]
- HMITalk1.PointValue(55) = %THD V 3 [%]
- HMITalk1.PointValue(56) = %THD I 1 [%]
- HMITalk1.PointValue(57) = %THD I 2 [%]
- HMITalk1.PointValue(58) = %THD I 3 [%]
COMMAND DESCRIPTION:
Lee un paquete de 59 mediciones conteniendo los
minimos de las variables electricas trifasico.
PROPERTY SETTINGS REQUIRED:
HMITalk1.DriverDataType = Analog Input
HMITalk1.DriverNumPoints = 59
HMITalk1.DriverP0 = Unit Address (1-255).
HMITalk1.DriverP1 = 2
RETURNS:
- HMITalk1.PointValue(0) = Tension fase [V]
- HMITalk1.PointValue(1) = Corriente [mA]
- HMITalk1.PointValue(2) = Potencia activa [W]
- HMITalk1.PointValue(3) = Potencia reactiva inductiva [W]
- HMITalk1.PointValue(4) = Potencia reactiva capacitiva [W]
- HMITalk1.PointValue(5) = Factor de potencia [adim]
- HMITalk1.PointValue(6) = Tension fase [V]
- HMITalk1.PointValue(7) = Corriente [mA]
- HMITalk1.PointValue(8) = Potencia activa [W]
- HMITalk1.PointValue(9) = Potencia reactiva inductiva [W]
- HMITalk1.PointValue(10) = Potencia reactiva capacitiva [W]
- HMITalk1.PointValue(11) = Factor de potencia [adim]
- HMITalk1.PointValue(12) = Tension fase [V]
- HMITalk1.PointValue(13) = Corriente [mA]
- HMITalk1.PointValue(14) = Potencia activa [W]
- HMITalk1.PointValue(15) = Potencia reactiva inductiva [W]
- HMITalk1.PointValue(16) = Potencia reactiva capacitiva [W]
- HMITalk1.PointValue(17) = Factor de potencia [adim]
- HMITalk1.PointValue(18) = Tension promedio [V]
- HMITalk1.PointValue(19) = Corriente promedio [mA]
- HMITalk1.PointValue(20) = Potencia activa trifasica [W]
- HMITalk1.PointValue(21) = Potencia inductiva trifasica [W]
- HMITalk1.PointValue(22) = Potencia capacitiva trifasica [W]
- HMITalk1.PointValue(23) = Factor de potencia trifasico [adim]
- HMITalk1.PointValue(24) = Frecuencia (L1) [Hz]
- HMITalk1.PointValue(25) = Potencia aparente trifasica [W]
- HMITalk1.PointValue(26) = Tension linea L1-L2 [V]
- HMITalk1.PointValue(27) = Tension linea L2-L3 [V]
- HMITalk1.PointValue(28) = Tension linea L3-L1 [V]
- HMITalk1.PointValue(29) = Tension promedio compuesta [V]
- HMITalk1.PointValue(30) = Hora [adim]
- HMITalk1.PointValue(31) = Energia activa T1 (+) [Wh]
- HMITalk1.PointValue(32) = Energia reactivainductiva T1 (+) [Wh]
- HMITalk1.PointValue(33) = Energia reactiva capacitiva T1 (+) [Wh]
- HMITalk1.PointValue(34) = Maxima demanda T1 [W/VA]
- HMITalk1.PointValue(35) = Energia activa T1 (-) [Wh]
- HMITalk1.PointValue(36) = Energia reactiva inductiva T1 (-) [Wh]
- HMITalk1.PointValue(37) = Energia reactiva capacitiva T1 (-) [Wh]
- HMITalk1.PointValue(38) = Energia activa T2 (+) [Wh]
- HMITalk1.PointValue(39) = Energia reactiva inductiva T2 (+) [Wh]
- HMITalk1.PointValue(40) = Energia reactiva capacitiva T2 (+) [Wh]
- HMITalk1.PointValue(41) = Maxima demanda T2 [W/VA]
- HMITalk1.PointValue(42) = Energia activa T2 (-) [Wh]
- HMITalk1.PointValue(43) = Energia reactiva inductiva T2 (-) [Wh]
- HMITalk1.PointValue(44) = Energia reactiva capacitiva T2 (-) [Wh]
- HMITalk1.PointValue(45) = Energia activa T3 (+) [Wh]
- HMITalk1.PointValue(46) = Energia reactiva inductiva T3 (+) [Wh]
- HMITalk1.PointValue(47) = Energia reactiva capacitiva T3 (+) [Wh]
- HMITalk1.PointValue(48) = Maxima demanda T3 [W/VA]
- HMITalk1.PointValue(49) = Energia activa T3 (-) [Wh]
- HMITalk1.PointValue(50) = Energia reactiva i nductiva T3 (-) [Wh]
- HMITalk1.PointValue(51) = Energia reactiva capacitiva T3 (-) [Wh]
- HMITalk1.PointValue(52) = Intensidad de neutro [mA]
- HMITalk1.PointValue(53) = %THD V 1 [%]
- HMITalk1.PointValue(54) = %THD V 2 [%]
- HMITalk1.PointValue(55) = %THD V 3 [%]
- HMITalk1.PointValue(56) = %THD I 1 [%]
- HMITalk1.PointValue(57) = %THD I 2 [%]
- HMITalk1.PointValue(58) = %THD I 3 [%]
COMMAND DESCRIPTION:
Lee un paquete de 6 valores conteniendo los datos del
reloj del equipo.
PROPERTY SETTINGS REQUIRED:
HMITalk1.DriverDataType = Analog Input
HMITalk1.DriverNumPoints = 6
HMITalk1.DriverP0 = Unit Address (1-255).
HMITalk1.DriverP1 = 3
RETURNS:
- HMITalk1.PointValue(0) = Dia
- HMITalk1.PointValue(1) = Mes
- HMITalk1.PointValue(2) = Anio
- HMITalk1.PointValue(3) = Hora
- HMITalk1.PointValue(4) = Minutos
- HMITalk1.PointValue(5) = Segundos
COMMAND DESCRIPTION:
Escribe un paquete de 6 valores enviando los nuevos datos
del reloj del equipo.
PROPERTY SETTINGS REQUIRED:
HMITalk1.DriverDataType = Analog Output
HMITalk1.DriverNumPoints = 6
HMITalk1.DriverP0 = Unit Address (1-255).
HMITalk1.DriverP1 = 3
RETURNS:
- HMITalk1.PointValue(0) = Nuevo dia
- HMITalk1.PointValue(1) = Nuevo mes
- HMITalk1.PointValue(2) = Nuevo anio
- HMITalk1.PointValue(3) = Nueva hora
- HMITalk1.PointValue(4) = Nuevos minutos
- HMITalk1.PointValue(5) = Nuevos segundos
COMMAND DESCRIPTION:
Lee un paquete de 27 valores conteniendo los
sumatorios de puntos del convertidor necesarios para
calcular las ganancias.
PROPERTY SETTINGS REQUIRED:
HMITalk1.DriverDataType = Analog Input
HMITalk1.DriverNumPoints = 27
HMITalk1.DriverP0 = Unit Address (1-255).
HMITalk1.DriverP1 = 4
RETURNS:
- HMITalk1.PointValue(0) = Corriente I1 escala 1
- HMITalk1.PointValue(1) = Corriente I1 escala 2
- HMITalk1.PointValue(2) = Tension V1
- HMITalk1.PointValue(3) = Corriente I2 escala 1
- HMITalk1.PointValue(4) = Corriente I2 escala 2
- HMITalk1.PointValue(5) = Tension V2
- HMITalk1.PointValue(6) = Corriente I3 escala 1
- HMITalk1.PointValue(7) = Corriente I3 escala 2
- HMITalk1.PointValue(8) = Tension V3
- HMITalk1.PointValue(9) = Tension V12
- HMITalk1.PointValue(10) = Tension V23
- HMITalk1.PointValue(11) = Tension V31
- HMITalk1.PointValue(12) = Potencia activa fase 1 escala 1
- HMITalk1.PointValue(13) = Potencia activa fase 1 escala 2
- HMITalk1.PointValue(14) = Potencia activa fase 2 escala 1
- HMITalk1.PointValue(15) = Potencia activa fase 2 escala 2
- HMITalk1.PointValue(16) = Potencia activa fase 3 escala 1
- HMITalk1.PointValue(17) = Potencia activa fase 3 escala 2
- HMITalk1.PointValue(18) = Potencia reactiva fase 1 escala 1
- HMITalk1.PointValue(19) = Potencia reactiva fase 1 escala 2
- HMITalk1.PointValue(20) = Potencia reactiva fase 2 escala 1
- HMITalk1.PointValue(21) = Potencia reactiva fase 2 escala 2
- HMITalk1.PointValue(22) = Potencia reactiva fase 3 escala 1
- HMITalk1.PointValue(23) = Potencia reactiva fase 3 escala 2
- HMITalk1.PointValue(24) = Corriente de neutro escala 1
- HMITalk1.PointValue(25) = Corriente de neutro escala 2
- HMITalk1.PointValue(26) = Numero de muestras
COMMAND DESCRIPTION:
Lee un paquete de 12 valores conteniendo las ganancias
o factores de calibracion definidos en fabrica.
PROPERTY SETTINGS REQUIRED:
HMITalk1.DriverDataType = Analog Input
HMITalk1.DriverNumPoints = 12
HMITalk1.DriverP0 = Unit Address (1-255).
HMITalk1.DriverP1 = 5
RETURNS:
- HMITalk1.PointValue(0) = Ganancia corriente linea 1
- HMITalk1.PointValue(1) = Ganancia tension linea 1
- HMITalk1.PointValue(2) = Ganancia corriente linea 2
- HMITalk1.PointValue(3) = Ganancia tension linea 2
- HMITalk1.PointValue(4) = Ganancia corriente linea 3
- HMITalk1.PointValue(5) = Ganancia tension linea 3
- HMITalk1.PointValue(6) = Ganancia corriente neutro
- HMITalk1.PointValue(7) = Ganancia tension neutro
- HMITalk1.PointValue(8) = Ganancia escala 2 linea I1
- HMITalk1.PointValue(9) = Ganancia escala 2 linea I2
- HMITalk1.PointValue(10) = Ganancia escala 2 linea I3
- HMITalk1.PointValue(11) = Ganancia escala 2 linea IN
NOTA:
Para leer las ganancias del equipo, el flag de
test de ganancias debe estar activado.
COMMAND DESCRIPTION:
Escribe un paquete de 12 valores conteniendo los
valores actuales de las ganancias del equipo.
PROPERTY SETTINGS REQUIRED:
HMITalk1.DriverDataType = Analog Output
HMITalk1.DriverNumPoints = 12
HMITalk1.DriverP0 = Unit Address (1-255).
HMITalk1.DriverP1 = 0
WHERE:
- HMITalk1.PointValue(0) = Nueva ganancia corriente linea 1
- HMITalk1.PointValue(1) = Nueva ganancia tension linea 1
- HMITalk1.PointValue(2) = Nueva ganancia corriente linea 2
- HMITalk1.PointValue(3) = Nueva ganancia tension linea 2
- HMITalk1.PointValue(4) = Nueva ganancia corriente linea 3
- HMITalk1.PointValue(5) = Nueva ganancia tension linea 3
- HMITalk1.PointValue(6) = Nueva ganancia corriente neutro
- HMITalk1.PointValue(7) = Nueva ganancia tension neutro
- HMITalk1.PointValue(8) = Nueva ganancia escala 2 linea I1
- HMITalk1.PointValue(9) = Nueva ganancia escala 2 linea I2
- HMITalk1.PointValue(10) = Nueva ganancia escala 2 linea I3
- HMITalk1.PointValue(11) = Nueva ganancia escala 2 linea IN
NOTA:
Para manipular las ganancias del equipo, el flag de
test de ganancias debe estar activado.
COMMAND DESCRIPTION:
Lee un paquete de 2 valores conteniendo los estados de
los reles 1 y 2.
PROPERTY SETTINGS REQUIRED:
HMITalk1.DriverDataType = Digital Input
HMITalk1.DriverNumPoints = 2
HMITalk1.DriverP0 = Unit Address (1-255).
HMITalk1.DriverP1 = 1
RETURNS:
- HMITalk1.PointValue(0) = Nuevo estado del rele 1
- HMITalk1.PointValue(1) = Nuevo estado del rele 2
COMMAND DESCRIPTION:
Escribe el nuevo estado para uno de los dos reles del equipo.
PROPERTY SETTINGS REQUIRED:
HMITalk1.DriverDataType = Digital Output
HMITalk1.DriverNumPoints = 1
HMITalk1.DriverP0 = Unit Address (1-255).
HMITalk1.DriverP1 = 1
HMITalk1.DriverP2 = Numero de rele (1 o 2)
WHERE:
- HMITalk1.PointValue(0) = Nuevo estado del rele
COMMAND DESCRIPTION:
Lee un paquete de 4 valores conteniendo los estados de
las teclas MAX, MIN, DISPLAY y RESET del teclado del equipo.
PROPERTY SETTINGS REQUIRED:
HMITalk1.DriverDataType = Digital Input
HMITalk1.DriverNumPoints = 4
HMITalk1.DriverP0 = Unit Address (1-255).
HMITalk1.DriverP1 = 2
RETURNS:
- HMITalk1.PointValue(0) = Estado de la tecla MAX
- HMITalk1.PointValue(1) = Estado de la tecla MIN
- HMITalk1.PointValue(2) = Estado de la tecla DISPLAY
- HMITalk1.PointValue(3) = Estado de la tecla RESET
COMMAND DESCRIPTION:
Establece el estado del flag de test de ganancias para
permitir la lectura y manipulacion de las mismas. Este
flag es de solo escritura y no permite su lectura.
PROPERTY SETTINGS REQUIRED:
HMITalk1.DriverDataType = Digital Output
HMITalk1.DriverNumPoints = 1
HMITalk1.DriverP0 = Unit Address (1-255).
HMITalk1.DriverP1 = 0
WHERE:
- HMITalk1.PointValue(0) = Nuevo estado del flag
NOTA:
Para poder leer o manipular las ganancias del equipo,
este flag de test de ganancias debe estar activado.
COMMAND DESCRIPTION:
Envia al equipo la instruccion de borrado de energias.
PROPERTY SETTINGS REQUIRED:
HMITalk1.DriverDataType = Digital Output
HMITalk1.DriverNumPoints = 1
HMITalk1.DriverP0 = Unit Address (1-255).
HMITalk1.DriverP1 = 2
COMMAND DESCRIPTION:
Envia al equipo la instruccion de borrado de maxima demanda.
PROPERTY SETTINGS REQUIRED:
HMITalk1.DriverDataType = Digital Output
HMITalk1.DriverNumPoints = 1
HMITalk1.DriverP0 = Unit Address (1-255).
HMITalk1.DriverP1 = 3
COMMAND DESCRIPTION:
Envia al equipo la instruccion de borrado de maximos y minimos.
PROPERTY SETTINGS REQUIRED:
HMITalk1.DriverDataType = Digital Output
HMITalk1.DriverNumPoints = 1
HMITalk1.DriverP0 = Unit Address (1-255).
HMITalk1.DriverP1 = 4
COMMAND DESCRIPTION:
Envia al equipo la instruccion de borrado de todo.
PROPERTY SETTINGS REQUIRED:
HMITalk1.DriverDataType = Digital Output
HMITalk1.DriverNumPoints = 1
HMITalk1.DriverP0 = Unit Address (1-255).
HMITalk1.DriverP1 = 5
COMMAND DESCRIPTION:
Envia al equipo la instruccion de reset del sistema.
Este comando no espera respuesta ya que inmediatamente
despues de enviado, el equipo se resetea.
PROPERTY SETTINGS REQUIRED:
HMITalk1.DriverDataType = Digital Output
HMITalk1.DriverNumPoints = 1
HMITalk1.DriverP0 = Unit Address (1-255).
HMITalk1.DriverP1 = 6
COMMAND DESCRIPTION:
Establece cuales seran las variables a ser registradas
por el equipo.
PROPERTY SETTINGS REQUIRED:
HMITalk1.DriverDataType = Analog Output
HMITalk1.DriverNumPoints = 1-122
HMITalk1.DriverP0 = Unit Address (1-255).
HMITalk1.DriverP1 = 1
WHERE:
- HMITalk1.PointValue(0) = Codigo de la primer variable a registrar
- HMITalk1.PointValue(1) = Codigo de la segunda variable a registrar
.
.
.
- HMITalk1.PointValue(NumPoints-1) = Codigo de la ultima variable a registrar
TABLA DE CODIGOS:
Los valores permitidos para cada PointValue son los siguientes:
0 = V1
1 = A1
2 = kW1
3 = kvar L1
4 = kvar C1
5 = PF 1
6 = V2
7 = A2
8 = kW2
9 = kvar L2
10 = kvar C2
11 = PF2
12 = V3
13 = A3
14 = kW3
15 = kvar L3
16 = kvar C3
17 = PF3
18 = Vav III N
19 = Aav III
20 = kWIII
21 = kvar LIII
22 = kvar CIII
23 = PF III
24 = Hz
25 = kVA III
26 = V12
27 = V23
28 = V31
29 = Vav III
30 = DC1
31 = DC2
32 = V1mx
33 = A1mx
34 = kW1mx
35 = kvar L1mx
36 = kvar C1mx
37 = PF 1mx
38 = V2mx
39 = A2mx
40 = kW2mx
41 = kvar L2mx
42 = kvar C2mx
43 = PF2mx
44 = V3mx
45 = A3mx
46 = kW3mx
47 = kvar L3mx
48 = kvar C3mx
49 = PF3mx
50 = Vav III Nmx
51 = Aav IIImx
52 = kWIIImx
53 = kvar LIIImx
54 = kvar CIIImx
55 = PF IIImx
56 = Hzmx
57 = kVA IIImx
58 = V12mx
59 = V23mx
60 = V31mx
61 = Vav IIImx
62 = DC1mx
63 = DC2mx
64 = V1mn
65 = A1mn
66 = kW1mn
67 = kvar L1mn
68 = kvar C1mn
69 = PF 1mn
70 = V2mn
71 = A2mn
72 = kW2mn
73 = kvar L2mn
74 = kvar C2mn
75 = PF2mn
76 = V3mn
77 = A3mn
78 = kW3mn
79 = kvar L3mn
80 = kvar C3mn
81 = PF3mn
82 = Vav III Nmn
83 = Aav IIImn
84 = kWIIImn
85 = kvar LIIImn
84 = kWIIImn
85 = kvar LIIImn
86 = kvar CIIImn
87 = PF IIImn
88 = Hzmn
89 = kVA IIImn
90 = V12mn
91 = V23mn
92 = V31mn
93 = Vav IIImn
94 = DC1mn
95 = DC2mn
96 = nkW1
97 = nkvar L1
98 = nkvar C1
99 = nkW2
100 = nkvar L2
101 = nkvar C2
102 = nkW3
103 = nkvar L3
104 = nkvar C3
105 = nkWIII
106 = nkvar LIII
107 = nkvar CIII
108 = nkW1mx
109 = nkvar L1mx
110 = nkvar C1mx
111 = nkW2mx
112 = nkvar L2mx
113 = nkvar C2mx
114 = nkW3mx
115 = nkvar L3mx
116 = nkvar C3mx
117 = nkWIIImx
118 = nkvar LIIImx
119 = nkvar CIIImx
120 = nkW1mn
121 = nkvar L1mn
122 = nkvar C1mn
123 = nkW2mn
124 = nkvar L2mn
125 = nkvar C2mn
126 = nkW3mn
127 = nkvar L3mn
128 = nkvar C3mn
129 = nkWIIImn
130 = nkvar LIIImn
131 = nkvar CIIImn
132 = kwh-1
133 = kwh/1000-1
134 = kvarLh-1
135 = kvarLh/1000-1
136 = kvarCh-1
137 = kvarCh/1000-1
138 = nkwh-1
139 = nkwh/1000-1
140 = nkvarLh-1
141 = nkvarLh/1000-1
142 = nkvarCh-1
143 = nkvarCh/1000-1
144 = kwh-2
145 = kwh/1000-2
146 = kvarLh-2
147 = kvarLh/1000-2
148 = kvarCh-2
149 = kvarCh/1000-2
150 = nkwh-2
151 = nkwh/1000-2
152 = nkvarLh-2
153 = nkvarLh/1000-2
154 = nkvarCh-2
155 = nkvarCh/1000-2
156 = kwh-3
157 = kwh/1000-3
158 = kvarLh-3
159 = kvarLh/1000-3
160 = kvarCh-3
161 = kvarCh/1000-3
162 = nkwh-3
163 = nkwh/1000-3
164 = nkvarLh-3
165 = nkvarLh/1000-3
166 = nkvarCh-3
167 = nkvarCh/1000-3
168 = nPF 1
169 = nPF 2
170 = nPF 3
171 = nPF III
172 = nPF 1 mx
173 = nPF 2 mx
174 = nPF 3 mx
175 = nPF III mx
176 = nPF 1 mn
177 = nPF 2 mn
178 = nPF 3 mn
179 = nPF III mn
COMMAND DESCRIPTION:
Lee 5 valores con los seteos de la condicion del trigger
del inicio de registro del equipo.
PROPERTY SETTINGS REQUIRED:
HMITalk1.DriverDataType = Analog Input
HMITalk1.DriverNumPoints = 5
HMITalk1.DriverP0 = Unit Address (1-255).
HMITalk1.DriverP1 = 9
RETURNS:
- HMITalk1.PointValue(0) = Codigo de variable para el trigger (0-9)
- HMITalk1.PointValue(1) = Fecha de inicio de registro
- HMITalk1.PointValue(2) = Fecha de fin de registro
- HMITalk1.PointValue(3) = Valor maximo de trigger
- HMITalk1.PointValue(4) = Valor minimo de trigger
COMMAND DESCRIPTION:
Establece las condiciones bajo las cuales se realizara el
disparo del registro de las mediciones establecidas.
PROPERTY SETTINGS REQUIRED:
HMITalk1.DriverDataType = Analog Output
HMITalk1.DriverNumPoints = 5
HMITalk1.DriverP0 = Unit Address (1-255).
HMITalk1.DriverP1 = 4
WHERE:
- HMITalk1.PointValue(0) = Codigo de variable para el trigger (0-9)
- HMITalk1.PointValue(1) = Fecha de inicio de registro
- HMITalk1.PointValue(2) = Fecha de fin de registro
- HMITalk1.PointValue(3) = Valor maximo de trigger
- HMITalk1.PointValue(4) = Valor minimo de trigger
COMMAND DESCRIPTION:
Lee un valor conteniendo el tiempo actual en minutos entre
dos registros consecutivos en la memoria del equipo.
PROPERTY SETTINGS REQUIRED:
HMITalk1.DriverDataType = Analog Input
HMITalk1.DriverNumPoints = 1
HMITalk1.DriverP0 = Unit Address (1-255).
HMITalk1.DriverP1 = 6
RETURNS:
- HMITalk1.PointValue(0) = Tiempo de registro actual
COMMAND DESCRIPTION:
Establece cual sera el tiempo entre dos muestras consecutivas
registradas por el equipo, en minutos.
PROPERTY SETTINGS REQUIRED:
HMITalk1.DriverDataType = Analog Output
HMITalk1.DriverNumPoints = 1
HMITalk1.DriverP0 = Unit Address (1-255).
HMITalk1.DriverP1 = 2
WHERE:
- HMITalk1.PointValue(0) = Tiempo entre muestras en segundos.
COMMAND DESCRIPTION:
Lee la cabecera del fichero donde se almacenan los registros
y la guarda en un archivo.
PROPERTY SETTINGS REQUIRED:
HMITalk1.DriverDataType = Analog Input
HMITalk1.DriverNumPoints = 1
HMITalk1.DriverP0 = Unit Address (1-255).
HMITalk1.DriverP1 = 7
HMITalk1.DriverP6 = Nombre con path completo del archivo de destino.
RETURNS:
- HMITalk1.PointValue(0) = Longitud total de la cabecera
- HMITalk1.PointValue(1) = Longitud total de cada registro
- HMITalk1.PointValue(2) = Cantidad de variables que se registran
COMMAND DESCRIPTION:
Devuelve las posiciones a la que apuntan actualmente los
punteros de los archivos CVT y CVP que es donde se escribiran
los proximos registros. Tambien devuelve la cantidad de registros
que hay actualmente disponibles en cada tipo de fichero.
Si la cantidad de registros es el maximo y el puntero es un
numero inferior, indicara que la memoria ha dado vuelta.
PROPERTY SETTINGS REQUIRED:
HMITalk1.DriverDataType = Analog Input
HMITalk1.DriverNumPoints = 4
HMITalk1.DriverP0 = Unit Address (1-255).
HMITalk1.DriverP1 = 8
RETURNS:
- HMITalk1.PointValue(0) = Cantidad de registros en memoria (CVT)
- HMITalk1.PointValue(1) = Posicion actual del puntero (CVT)
- HMITalk1.PointValue(2) = Cantidad de registros en memoria (CVP)
- HMITalk1.PointValue(3) = Posicion actual del puntero (CVP)
COMMAND DESCRIPTION:
Pone el puntero al inicio de la memoria. Haciendo un reset
del equipo y justo despues enviando este comando, el equipo
empezara a registrar desde el principio.
PROPERTY SETTINGS REQUIRED:
HMITalk1.DriverDataType = Digital Output
HMITalk1.DriverNumPoints = 1
HMITalk1.DriverP0 = Unit Address (1-255).
HMITalk1.DriverP1 = 6
COMMAND DESCRIPTION:
Este comando implementa la lectura de una cantidad de
registros a partir de una posicion indicada, almacenando
en un archivo binario (CVT) los datos recibidos. El comando
tambien se encarga de obtener previamente la cabecera que
le corresponde a ese archivo. Si el archivo no existe,
se crea un archivo nuevo utilizando la cabecera obtenida.
Si el archivo ya existe, se compara la cabecera obtenida con
la cabecera existente en el archivo de destino antes de
agregarle nuevos registros. Si la cabecera es diferente, el
comando se aborta sin agregar registros al archivo.
PROPERTY SETTINGS REQUIRED:
HMITalk1.DriverDataType = Analog Input
HMITalk1.DriverNumPoints = 6
HMITalk1.DriverP0 = Unit Address (1-255).
HMITalk1.DriverP1 = 20
HMITalk1.DriverP2 = Posicion inicial a leer
HMITalk1.DriverP3 = Cantidad de registros a leer
HMITalk1.DriverP4 = Ignorar comparacion de cabeceras (1=Si, 0=No)
HMITalk1.DriverP5 = Numero de reintentos con cada bloque transferido
antes de abandonar la bajada del archivo. Si se
deja en 0, se realizaran 10 reintentos.
HMITalk1.DriverP6 = Nombre con path completo del archivo de destino.
RETURNS:
- HMITalk1.PointValue(0) = Cantidad total de bytes leidos
- HMITalk1.PointValue(1) = Longitud total de la cabecera
- HMITalk1.PointValue(2) = Longitud total de cada registro
- HMITalk1.PointValue(3) = Cantidad de variables que se registran
- HMITalk1.PointValue(4) = Cantidad total de muestras leidas
- HMITalk1.PointValue(5) = Posicion final leida
COMMAND DESCRIPTION:
Este comando implementa la lectura de una cantidad de
registros a partir de una posicion indicada, almacenando
en un archivo binario (CVP) los datos recibidos. El comando
tambien se encarga de obtener previamente la cabecera que
le corresponde a ese archivo. Si el archivo no existe,
se crea un archivo nuevo utilizando la cabecera obtenida.
Si el archivo ya existe, se compara la cabecera obtenida con
la cabecera existente en el archivo de destino antes de
agregarle nuevos registros. Si la cabecera es diferente, el
comando se aborta sin agregar registros al archivo.
PROPERTY SETTINGS REQUIRED:
HMITalk1.DriverDataType = Analog Input
HMITalk1.DriverNumPoints = 6
HMITalk1.DriverP0 = Unit Address (1-255).
HMITalk1.DriverP1 = 21
HMITalk1.DriverP2 = Posicion inicial a leer
HMITalk1.DriverP3 = Cantidad de registros a leer
HMITalk1.DriverP5 = Numero de reintentos con cada bloque transferido
antes de abandonar la bajada del archivo. Si se
deja en 0, se realizaran 10 reintentos.
HMITalk1.DriverP6 = Nombre con path completo del archivo de destino.
RETURNS:
- HMITalk1.PointValue(0) = Cantidad total de bytes leidos
- HMITalk1.PointValue(1) = Longitud total de la cabecera
- HMITalk1.PointValue(2) = Longitud total de cada registro
- HMITalk1.PointValue(3) = Cantidad de variables que se registran
- HMITalk1.PointValue(4) = Cantidad total de muestras leidas
- HMITalk1.PointValue(5) = Posicion final leida
COMMAND DESCRIPTION:
Lee un paquete de 15 valores conteniendo la corriente RMS
y catorce componentes armonicos para la corriente 1.
PROPERTY SETTINGS REQUIRED:
HMITalk1.DriverDataType = Analog Input
HMITalk1.DriverNumPoints = 15
HMITalk1.DriverP0 = Unit Address (1-255).
HMITalk1.DriverP1 = 10
RETURNS:
- HMITalk1.PointValue(0) = Corriente RMS
- HMITalk1.PointValue(1) = Componente armonico 1
- HMITalk1.PointValue(2) = Componente armonico 2
- HMITalk1.PointValue(3) = Componente armonico 3
- HMITalk1.PointValue(4) = Componente armonico 4
- HMITalk1.PointValue(5) = Componente armonico 5
- HMITalk1.PointValue(6) = Componente armonico 6
- HMITalk1.PointValue(7) = Componente armonico 7
- HMITalk1.PointValue(8) = Componente armonico 8
- HMITalk1.PointValue(9) = Componente armonico 9
- HMITalk1.PointValue(10) = Componente armonico 10
- HMITalk1.PointValue(11) = Componente armonico 11
- HMITalk1.PointValue(12) = Componente armonico 12
- HMITalk1.PointValue(13) = Componente armonico 13
- HMITalk1.PointValue(14) = Componente armonico 14
COMMAND DESCRIPTION:
Lee un paquete de 15 valores conteniendo la corriente RMS
y catorce componentes armonicos para la corriente 2.
PROPERTY SETTINGS REQUIRED:
HMITalk1.DriverDataType = Analog Input
HMITalk1.DriverNumPoints = 15
HMITalk1.DriverP0 = Unit Address (1-255).
HMITalk1.DriverP1 = 11
RETURNS:
- HMITalk1.PointValue(0) = Corriente RMS
- HMITalk1.PointValue(1) = Componente armonico 1
- HMITalk1.PointValue(2) = Componente armonico 2
- HMITalk1.PointValue(3) = Componente armonico 3
- HMITalk1.PointValue(4) = Componente armonico 4
- HMITalk1.PointValue(5) = Componente armonico 5
- HMITalk1.PointValue(6) = Componente armonico 6
- HMITalk1.PointValue(7) = Componente armonico 7
- HMITalk1.PointValue(8) = Componente armonico 8
- HMITalk1.PointValue(9) = Componente armonico 9
- HMITalk1.PointValue(10) = Componente armonico 10
- HMITalk1.PointValue(11) = Componente armonico 11
- HMITalk1.PointValue(12) = Componente armonico 12
- HMITalk1.PointValue(13) = Componente armonico 13
- HMITalk1.PointValue(14) = Componente armonico 14
COMMAND DESCRIPTION:
Lee un paquete de 15 valores conteniendo la corriente RMS
y catorce componentes armonicos para la corriente 3.
PROPERTY SETTINGS REQUIRED:
HMITalk1.DriverDataType = Analog Input
HMITalk1.DriverNumPoints = 15
HMITalk1.DriverP0 = Unit Address (1-255).
HMITalk1.DriverP1 = 12
RETURNS:
- HMITalk1.PointValue(0) = Corriente RMS
- HMITalk1.PointValue(1) = Componente armonico 1
- HMITalk1.PointValue(2) = Componente armonico 2
- HMITalk1.PointValue(3) = Componente armonico 3
- HMITalk1.PointValue(4) = Componente armonico 4
- HMITalk1.PointValue(5) = Componente armonico 5
- HMITalk1.PointValue(6) = Componente armonico 6
- HMITalk1.PointValue(7) = Componente armonico 7
- HMITalk1.PointValue(8) = Componente armonico 8
- HMITalk1.PointValue(9) = Componente armonico 9
- HMITalk1.PointValue(10) = Componente armonico 10
- HMITalk1.PointValue(11) = Componente armonico 11
- HMITalk1.PointValue(12) = Componente armonico 12
- HMITalk1.PointValue(13) = Componente armonico 13
- HMITalk1.PointValue(14) = Componente armonico 14
COMMAND DESCRIPTION:
Lee un paquete de 15 valores conteniendo la tension RMS
y catorce componentes armonicos para la tension 1.
PROPERTY SETTINGS REQUIRED:
HMITalk1.DriverDataType = Analog Input
HMITalk1.DriverNumPoints = 15
HMITalk1.DriverP0 = Unit Address (1-255).
HMITalk1.DriverP1 = 13
RETURNS:
- HMITalk1.PointValue(0) = Tension RMS
- HMITalk1.PointValue(1) = Componente armonico 1
- HMITalk1.PointValue(2) = Componente armonico 2
- HMITalk1.PointValue(3) = Componente armonico 3
- HMITalk1.PointValue(4) = Componente armonico 4
- HMITalk1.PointValue(5) = Componente armonico 5
- HMITalk1.PointValue(6) = Componente armonico 6
- HMITalk1.PointValue(7) = Componente armonico 7
- HMITalk1.PointValue(8) = Componente armonico 8
- HMITalk1.PointValue(9) = Componente armonico 9
- HMITalk1.PointValue(10) = Componente armonico 10
- HMITalk1.PointValue(11) = Componente armonico 11
- HMITalk1.PointValue(12) = Componente armonico 12
- HMITalk1.PointValue(13) = Componente armonico 13
- HMITalk1.PointValue(14) = Componente armonico 14
COMMAND DESCRIPTION:
Lee un paquete de 15 valores conteniendo la tension RMS
y catorce componentes armonicos para la tension 2.
PROPERTY SETTINGS REQUIRED:
HMITalk1.DriverDataType = Analog Input
HMITalk1.DriverNumPoints = 15
HMITalk1.DriverP0 = Unit Address (1-255).
HMITalk1.DriverP1 = 14
RETURNS:
- HMITalk1.PointValue(0) = Tension RMS
- HMITalk1.PointValue(1) = Componente armonico 1
- HMITalk1.PointValue(2) = Componente armonico 2
- HMITalk1.PointValue(3) = Componente armonico 3
- HMITalk1.PointValue(4) = Componente armonico 4
- HMITalk1.PointValue(5) = Componente armonico 5
- HMITalk1.PointValue(6) = Componente armonico 6
- HMITalk1.PointValue(7) = Componente armonico 7
- HMITalk1.PointValue(8) = Componente armonico 8
- HMITalk1.PointValue(9) = Componente armonico 9
- HMITalk1.PointValue(10) = Componente armonico 10
- HMITalk1.PointValue(11) = Componente armonico 11
- HMITalk1.PointValue(12) = Componente armonico 12
- HMITalk1.PointValue(13) = Componente armonico 13
- HMITalk1.PointValue(14) = Componente armonico 14
COMMAND DESCRIPTION:
Lee un paquete de 15 valores conteniendo la tension RMS
y catorce componentes armonicos para la tension 3.
PROPERTY SETTINGS REQUIRED:
HMITalk1.DriverDataType = Analog Input
HMITalk1.DriverNumPoints = 15
HMITalk1.DriverP0 = Unit Address (1-255).
HMITalk1.DriverP1 = 15
RETURNS:
- HMITalk1.PointValue(0) = Tension RMS
- HMITalk1.PointValue(1) = Componente armonico 1
- HMITalk1.PointValue(2) = Componente armonico 2
- HMITalk1.PointValue(3) = Componente armonico 3
- HMITalk1.PointValue(4) = Componente armonico 4
- HMITalk1.PointValue(5) = Componente armonico 5
- HMITalk1.PointValue(6) = Componente armonico 6
- HMITalk1.PointValue(7) = Componente armonico 7
- HMITalk1.PointValue(8) = Componente armonico 8
- HMITalk1.PointValue(9) = Componente armonico 9
- HMITalk1.PointValue(10) = Componente armonico 10
- HMITalk1.PointValue(11) = Componente armonico 11
- HMITalk1.PointValue(12) = Componente armonico 12
- HMITalk1.PointValue(13) = Componente armonico 13
- HMITalk1.PointValue(14) = Componente armonico 14
[1005] DRIVER (Internal): Invalid driver stage
[1201] DRIVER (System): Error closing %s
[1202] DRIVER (System): Error creating %s
[1204] DRIVER (System): Error opening %s
[1207] DRIVER (System): Error reading %s
[1208] DRIVER (System): Error seeking end of %s
[1210] DRIVER (System): Error writing to %s
[1300] PROTOCOL (Timeout): No answer
[1421] PROTOCOL (Format): Negative acknowledge received from device
[1425] PROTOCOL (Format): Response is too short
[2114] CONFIG (NumValues): Invalid number of values (must be 12)
[2115] CONFIG (NumValues): Invalid number of values (must be 15)
[2117] CONFIG (NumValues): Invalid number of values (must be 2)
[2121] CONFIG (NumValues): Invalid number of values (must be 27)
[2125] CONFIG (NumValues): Invalid number of values (must be 4)
[2127] CONFIG (NumValues): Invalid number of values (must be 5)
[2128] CONFIG (NumValues): Invalid number of values (must be 59)
[2129] CONFIG (NumValues): Invalid number of values (must be 6)
[2141] CONFIG (NumValues): Only one flag can be requested
[2144] CONFIG (NumValues): Only one register can be requested
[2145] CONFIG (NumValues): Only one register can be written
[2146] CONFIG (NumValues): Only one status can be set
[2148] CONFIG (NumValues): Only one value can be requested
[2249] CONFIG (NumValues): Too many values requested (max=122)
[3022] CONFIG (P0): Invalid device address (1-255)
[3508] CONFIG (P1): Invalid command
[4067] CONFIG (P2): Invalid initial position
[4093] CONFIG (P2): Invalid relay number (1 or 2)
[4548] CONFIG (P3): Invalid number of registers
[5034] CONFIG (P4): Invalid setting (0 o 1)
[6002] CONFIG (P6): Destination filename not supplied
[8013] CONFIG (Remote): Acknowledge
[8036] CONFIG (Remote): Busy, rejected message
[8138] CONFIG (Remote): Failure in associated device
[8168] CONFIG (Remote): Illegal data address
[8170] CONFIG (Remote): Illegal data value
[8172] CONFIG (Remote): Illegal function
[8347] CONFIG (Remote): Unknown error
This driver requires that you have TAS-HMITalk 8.04 installed.
Driver Source Code Last Update: 04/05/2004 16:52:40
Driver Reference Last Update: 10/30/2008 17:36:20
© 1990-2008, CPKSoft Engineering. All rights reserved.