Hello,
I want to connect 24 LWS Dielectric Leaf Wetness Sensor on my CR1000.
Is it possible and how can I make this with 1 or 2 AM16/32 ??
Because with "short cut" I can only connect 12 LWS on CR1000 and I can't view LWS on the list of sensors of AM16/32 .
Thank you.
Chris
hi
are you sure it's the reponse for my question ?????
Idon't understand at all !!!!!!!
Thanks
Chris
Hi
I don't understand the reponse of chenyansi !!!!
Thanks.
Chris
Hi
I don't understand the reponse of chenyansi !!!
Thanks .
Chris
Do extensive testing to make sure that you are getting what you expect. I am not an experienced LWS user.
But the following should get you started.
It seems like you should be able to get up to 48 LWS sensors onto a single multiplexer.
---------------------------------
CR1000 (to) AM16/32B (4x16 mode)
---------------------------------
G ---> G
12V ---> 12V
C1 ---> Res
C2 ---> Clk
Analog
Ground ---> COM Ground
VX1 ---> COM ODD H
SE1 ---> COM ODD L
SE2 ---> COM EVEN H
SE3 ---> COM EVEN L
---------------------------------
LWS 1,2,&3 (to) AM16/32B (4x16 mode)
---------------------------------
White #1 ----> Chan-X 1H
White #2 ----> Chan-X 1H
White #3 ----> Chan-X 1H
Red #1 ----> Chan-X 1L
Red #2 ----> Chan-X 2H
Red #3 ----> Chan-X 2L
Bare #1 ----> Chan-X Ground
Bare #2 ----> Chan-X Ground
Bare #3 ----> Chan-X Ground
---------------------------------
Public LWS(24)
Dim I
DataTable (LWSData,1,-1)
DataInterval (0,30,Sec,10)
Sample (24,LWS(),IEEE4)
EndTable
BeginProg
Scan (30,Sec,0,0)
PortSet (1,1) 'raise RES
I = 1
SubScan (0,mSec,8) '8 channels
PulsePort (2,10000) 'pulse CLK
BrHalf (LWS(I),3,mV2500,1,Vx1,3,2500,False,20000,_60Hz,2500,0) '3 per channel
I = I + 3
NextSubScan
PortSet (1,0) 'lower RES
CallTable (LWSData)
NextScan
EndProg
Thanks Sam,
I will test this ........
Have a good day.
Chris.
Thanks Sam,
I have test this and it's ok for 48 LWS as you tell me
but a little more difficult :
I want now connect 24 LWS (for that it's OK) but also on the same "cr1000+am16/32) 5 or 6 thermocouples.....
Is it possible ??
Thanks
Chris
The cr1000 has 16 analog channels.
3 are being used by the AM16/32b.
The 6 thermocouples can be connected to channels 5-16.
I write this as you tell me but I don't know what to write for my thermocouples in the main program
Can you help me
thanks
chris
'CR1000
'temp1 brown ---> 5
'temp1 white ---> 6
'temp2 brown ---> 7
'temp2 white ---> 8
'''''''''''''''''''''''''''''''''''''''''
'''''''''''''''''''''''''''''''''''''''''
'temp6 brown ---> 15
'temp6 white ---> 16
'CR1000 (to) AM16/32B (4x16 mode)
'---------------------------------
'G ---> G
'12V ---> 12V
'C1 ---> Res
'C2 ---> Clk
'Analog
'Ground ---> COM Ground
'VX1 ---> COM ODD H
'SE1 ---> COM ODD L
'SE2 ---> COM EVEN H
'SE3 ---> COM EVEN L
'---------------------------------
'Hum 1 a 48 (to) AM16/32B (4x16 mode)
'---------------------------------
'White #1 ----> Chan-X 1H
'White #2 ----> Chan-X 1H
'White #3 ----> Chan-X 1H
'Red #1 ----> Chan-X 1L
'Red #2 ----> Chan-X 2H
'Red #3 ----> Chan-X 2L
'Bare #1 ----> Chan-X Ground
'Bare #2 ----> Chan-X Ground
'Bare #3 ----> Chan-X Ground
'White #4 ----> Chan-X 3H
'White #5 ----> Chan-X 3H
'White #6 ----> Chan-X 3H
'Red #4 ----> Chan-X 3L
'Red #5 ----> Chan-X 4H
'Red #6 ----> Chan-X 4L
'Bare #4 ----> Chan-X Ground
'Bare #5 ----> Chan-X Ground
'Bare #6 ----> Chan-X Ground
''''''''''''''''''''''''''''''''''''''''''''''''''''
''''''''''''''''''''''''''''''''''''''''''''''''''''
'White #46 ----> Chan-X 31H
'White #47 ----> Chan-X 31H
'White #48 ----> Chan-X 31H
'Red #46 ----> Chan-X 31L
'Red #47 ----> Chan-X 32H
'Red #48 ----> Chan-X 32L
'Bare #46 ----> Chan-X Ground
'Bare #47 ----> Chan-X Ground
'Bare #48 ----> Chan-X Ground
'---------------------------------
'DECLARATION DES VARIABLES
Public BATT
Public T_interne
Public Hum(48)
Public Temp(6)
'DECLARATION DES ALIAS
'Alias Hum(1)= BTr_b01H
'Alias Hum(2)= BTr_H02H
'Alias Hum(3)= BTr_b03H
'Alias Hum(4)= BTr_H04H
'Alias Hum(5)= MTr_b05H
'Alias Hum(6)= MTr_H06H
'Alias Hum(7)= MTr_b07H
'Alias Hum(8)= MTr_H08H
'Alias Hum(9)= MNT_b09H
'Alias Hum(10)= MNT_H10H
'Alias Hum(11)= MNT_b11H
'Alias Hum(12)= MNT_H12H
'Alias Hum(13)= BNT_b13H
'Alias Hum(14)= BNT_H14H
'Alias Hum(15)= BNT_b15H
'Alias Hum(16)= BNT_H16H
'Alias Hum(17)= MNT_b09H
'Alias Hum(18)= MNT_H10H
'Alias Hum(19)= MNT_b11H
'Alias Hum(20)= MNT_H12H
'Alias Hum(21)= BNT_b13H
'Alias Hum(22)= BNT_H14H
'Alias Hum(23)= BNT_b15H
'Alias Hum(24)= BNT_H16H
'Alias Hum(25)= BTr_b01H
'Alias Hum(26)= BTr_H02H
'Alias Hum(27)= BTr_b03H
'Alias Hum(28)= BTr_H04H
'Alias Hum(29)= MTr_b05H
'Alias Hum(30)= MTr_H06H
'Alias Hum(31)= MTr_b07H
'Alias Hum(32)= MTr_H08H
'Alias Hum(33)= MNT_b09H
'Alias Hum(34)= MNT_H10H
'Alias Hum(35)= MNT_b11H
'Alias Hum(36)= MNT_H12H
'Alias Hum(37)= BNT_b13H
'Alias Hum(38)= BNT_H14H
'Alias Hum(39)= BNT_b15H
'Alias Hum(40)= BNT_H16H
'Alias Hum(41)= MNT_b09H
'Alias Hum(42)= MNT_H10H
'Alias Hum(43)= MNT_b11H
'Alias Hum(44)= MNT_H12H
'Alias Hum(45)= BNT_b13H
'Alias Hum(46)= BNT_H14H
'Alias Hum(47)= BNT_b15H
'Alias Hum(48)= BNT_H16H
'UNITES
Units BATT=Volts
Units T_interne=Deg C
Units Hum=mVolts
Units Temp=Deg C
'DEFINITION DU TABLEAU DES DONNEES FINALES
Dim I
DataTable (Data,1,-1)
OpenInterval
DataInterval (0,15,Min,10)
Average (1,BATT,FP2) ' batterie
Average (1,T_interne,FP2) ' temperature interne
Average (48,Hum(),FP2) 'capteurs Humectation
Average (6,Temp(),FP2) 'capteurs Temperature
EndTable
'////////////////////////////PROGRAMME PRINCIPAL\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\
StationName (2013PdTleRheu_48Hum)
'Definition du pas de temps des mesures
BeginProg
Scan (30,Sec,0,0)
'MESURES PROPRES A LA CENTRALE
'MESURE DE LA TENSION D'ALIMENTATION DE LA CENTRALE
Battery (BATT)
'MESURE DE LA TEMPERATURE INTERNE DE LA CENTRALE
PanelTemp (T_interne,250)
'ACTIVATION DES MESURES SUR LE MULTIPLEXEUR AVEC LE PORT 1
PortSet (1,1) 'raise RES
'INITIALISATION DU COMPTEUR DE BOUCLE
I = 1
'INDICATION DU NOMBRE DE BOUCLES ET HORLOGE
SubScan (0,mSec,8) '8 canaux de mesures
PulsePort (2,10000) 'pulse CLK
'MESURES des 48 Capteurs d'humectation
BrHalf (Hum(I),3,mV2500,1,Vx1,3,2500,False,20000,_60Hz,2500,0) '3 mesures
I = I + 3
NextSubScan
'DESACTIVATION DES MESURES SUR LE MULTIPLEXEUR AVEC LE PORT 1
PortSet (1,0) 'lower RES
'FABRICATION DU TABLEAU DE DONNEES FINALES
CallTable Data
NextScan
EndProg
Don't take into account the previous message
I've write this for 48LWS and 6 Temp
what do you think of this?
'CR1000
'temp1 brown ---> 5
'temp1 white ---> 6
'temp2 brown ---> 7
'temp2 white ---> 8
'''''''''''''''''''''''''''''''''''''''''
'''''''''''''''''''''''''''''''''''''''''
'temp6 brown ---> 15
'temp6 white ---> 16
'CR1000 (to) AM16/32B (4x16 mode)
'---------------------------------
'G ---> G
'12V ---> 12V
'C1 ---> Res
'C2 ---> Clk
'Analog
'Ground ---> COM Ground
'VX1 ---> COM ODD H
'SE1 ---> COM ODD L
'SE2 ---> COM EVEN H
'SE3 ---> COM EVEN L
'---------------------------------
'Hum 1 a 48 (to) AM16/32B (4x16 mode)
'---------------------------------
'White #1 ----> Chan-X 1H
'White #2 ----> Chan-X 1H
'White #3 ----> Chan-X 1H
'Red #1 ----> Chan-X 1L
'Red #2 ----> Chan-X 2H
'Red #3 ----> Chan-X 2L
'Bare #1 ----> Chan-X Ground
'Bare #2 ----> Chan-X Ground
'Bare #3 ----> Chan-X Ground
'White #4 ----> Chan-X 3H
'White #5 ----> Chan-X 3H
'White #6 ----> Chan-X 3H
'Red #4 ----> Chan-X 3L
'Red #5 ----> Chan-X 4H
'Red #6 ----> Chan-X 4L
'Bare #4 ----> Chan-X Ground
'Bare #5 ----> Chan-X Ground
'Bare #6 ----> Chan-X Ground
''''''''''''''''''''''''''''''''''''''''''''''''''''
''''''''''''''''''''''''''''''''''''''''''''''''''''
'White #46 ----> Chan-X 31H
'White #47 ----> Chan-X 31H
'White #48 ----> Chan-X 31H
'Red #46 ----> Chan-X 31L
'Red #47 ----> Chan-X 32H
'Red #48 ----> Chan-X 32L
'Bare #46 ----> Chan-X Ground
'Bare #47 ----> Chan-X Ground
'Bare #48 ----> Chan-X Ground
'---------------------------------
'DECLARATION DES VARIABLES
Public BATT
Public T_interne
Public Hum(48)
Public Temp(6)
'DECLARATION DES ALIAS
'Alias Hum(1)= BTr_b01H
'Alias Hum(2)= BTr_H02H
'Alias Hum(3)= BTr_b03H
'Alias Hum(4)= BTr_H04H
'Alias Hum(5)= MTr_b05H
'Alias Hum(6)= MTr_H06H
'Alias Hum(7)= MTr_b07H
'Alias Hum(8)= MTr_H08H
'Alias Hum(9)= MNT_b09H
'Alias Hum(10)= MNT_H10H
'Alias Hum(11)= MNT_b11H
'Alias Hum(12)= MNT_H12H
'Alias Hum(13)= BNT_b13H
'Alias Hum(14)= BNT_H14H
'Alias Hum(15)= BNT_b15H
'Alias Hum(16)= BNT_H16H
'Alias Hum(17)= MNT_b09H
'Alias Hum(18)= MNT_H10H
'Alias Hum(19)= MNT_b11H
'Alias Hum(20)= MNT_H12H
'Alias Hum(21)= BNT_b13H
'Alias Hum(22)= BNT_H14H
'Alias Hum(23)= BNT_b15H
'Alias Hum(24)= BNT_H16H
'Alias Hum(25)= BTr_b01H
'Alias Hum(26)= BTr_H02H
'Alias Hum(27)= BTr_b03H
'Alias Hum(28)= BTr_H04H
'Alias Hum(29)= MTr_b05H
'Alias Hum(30)= MTr_H06H
'Alias Hum(31)= MTr_b07H
'Alias Hum(32)= MTr_H08H
'Alias Hum(33)= MNT_b09H
'Alias Hum(34)= MNT_H10H
'Alias Hum(35)= MNT_b11H
'Alias Hum(36)= MNT_H12H
'Alias Hum(37)= BNT_b13H
'Alias Hum(38)= BNT_H14H
'Alias Hum(39)= BNT_b15H
'Alias Hum(40)= BNT_H16H
'Alias Hum(41)= MNT_b09H
'Alias Hum(42)= MNT_H10H
'Alias Hum(43)= MNT_b11H
'Alias Hum(44)= MNT_H12H
'Alias Hum(45)= BNT_b13H
'Alias Hum(46)= BNT_H14H
'Alias Hum(47)= BNT_b15H
'Alias Hum(48)= BNT_H16H
'UNITES
Units BATT=Volts
Units T_interne=Deg C
Units Hum=mVolts
Units Temp=Deg C
Dim I
'DEFINITION DU TABLEAU DES DONNEES FINALES
DataTable (Data,1,-1)
OpenInterval
DataInterval (0,15,Min,10) 'enregistrement toutes les 15 minutes
Average (1,BATT,FP2,False) 'moyenne batterie
Average (1,T_interne,FP2,False) 'moyenne temperature interne
Average (1,Temp(1),FP2,False) 'moyenne thermocouple 1
Average (1,Temp(2),FP2,False) 'moyenne thermocouple 2
Average (1,Temp(3),FP2,False) 'moyenne thermocouple 3
Average (1,Temp(4),FP2,False) 'moyenne thermocouple 4
Average (1,Temp(5),FP2,False) 'moyenne thermocouple 5
Average (1,Temp(6),FP2,False) 'moyenne thermocouple 6
Average (1,Hum(1),FP2,False) 'moyenne humectometre 1
Average (1,Hum(2),FP2,False) 'moyenne humectometre 2
Average (1,Hum(3),FP2,False) 'moyenne humectometre 3
Average (1,Hum(4),FP2,False) 'moyenne humectometre 4
Average (1,Hum(5),FP2,False) 'moyenne humectometre 5
Average (1,Hum(6),FP2,False) 'moyenne humectometre 6
Average (1,Hum(7),FP2,False) 'moyenne humectometre 7
Average (1,Hum(8),FP2,False) 'moyenne humectometre 8
Average (1,Hum(9),FP2,False) 'moyenne humectometre 9
Average (1,Hum(10),FP2,False) 'moyenne humectometre 10
Average (1,Hum(11),FP2,False) 'moyenne humectometre 11
Average (1,Hum(12),FP2,False) 'moyenne humectometre 12
Average (1,Hum(13),FP2,False) 'moyenne humectometre 13
Average (1,Hum(14),FP2,False) 'moyenne humectometre 14
Average (1,Hum(15),FP2,False) 'moyenne humectometre 15
Average (1,Hum(16),FP2,False) 'moyenne humectometre 16
Average (1,Hum(17),FP2,False) 'moyenne humectometre 17
Average (1,Hum(18),FP2,False) 'moyenne humectometre 18
Average (1,Hum(19),FP2,False) 'moyenne humectometre 19
Average (1,Hum(20),FP2,False) 'moyenne humectometre 20
Average (1,Hum(21),FP2,False) 'moyenne humectometre 21
Average (1,Hum(22),FP2,False) 'moyenne humectometre 22
Average (1,Hum(23),FP2,False) 'moyenne humectometre 23
Average (1,Hum(24),FP2,False) 'moyenne humectometre 24
Average (1,Hum(25),FP2,False) 'moyenne humectometre 25
Average (1,Hum(26),FP2,False) 'moyenne humectometre 26
Average (1,Hum(27),FP2,False) 'moyenne humectometre 27
Average (1,Hum(28),FP2,False) 'moyenne humectometre 28
Average (1,Hum(29),FP2,False) 'moyenne humectometre 29
Average (1,Hum(30),FP2,False) 'moyenne humectometre 30
Average (1,Hum(31),FP2,False) 'moyenne humectometre 31
Average (1,Hum(32),FP2,False) 'moyenne humectometre 32
Average (1,Hum(33),FP2,False) 'moyenne humectometre 33
Average (1,Hum(34),FP2,False) 'moyenne humectometre 34
Average (1,Hum(35),FP2,False) 'moyenne humectometre 35
Average (1,Hum(36),FP2,False) 'moyenne humectometre 36
Average (1,Hum(37),FP2,False) 'moyenne humectometre 37
Average (1,Hum(38),FP2,False) 'moyenne humectometre 38
Average (1,Hum(39),FP2,False) 'moyenne humectometre 39
Average (1,Hum(40),FP2,False) 'moyenne humectometre 40
Average (1,Hum(41),FP2,False) 'moyenne humectometre 41
Average (1,Hum(42),FP2,False) 'moyenne humectometre 42
Average (1,Hum(43),FP2,False) 'moyenne humectometre 43
Average (1,Hum(44),FP2,False) 'moyenne humectometre 44
Average (1,Hum(45),FP2,False) 'moyenne humectometre 45
Average (1,Hum(46),FP2,False) 'moyenne humectometre 46
Average (1,Hum(47),FP2,False) 'moyenne humectometre 47
Average (1,Hum(48),FP2,False) 'moyenne humectometre 48
EndTable
'////////////////////////////PROGRAMME PRINCIPAL\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\
StationName (2013PdT_48Hum_6Temp)
'Definition du pas de temps des mesures
BeginProg
Scan (30,Sec,0,0)
'MESURES PROPRES A LA CENTRALE
'MESURE DE LA TENSION D'ALIMENTATION DE LA CENTRALE
Battery (BATT)
'MESURE DE LA TEMPERATURE INTERNE DE LA CENTRALE
PanelTemp (T_interne,250)
'ACTIVATION DES MESURES SUR LE MULTIPLEXEUR AVEC LE PORT 1
PortSet (1,1) 'raise RES
'INITIALISATION DU COMPTEUR DE BOUCLE
I = 1
'INDICATION DU NOMBRE DE BOUCLES ET HORLOGE
SubScan (0,mSec,16) '16 canaux de mesures 16x3=48
PulsePort (2,10000) 'pulse CLK
'MESURES des 48 Capteurs d'humectation
BrHalf (Hum(I),3,mV2500,1,Vx1,3,2500,False,20000,_60Hz,2500,0) '3 mesures
I = I + 3
NextSubScan
'DESACTIVATION DES MESURES SUR LE MULTIPLEXEUR AVEC LE PORT 1
PortSet (1,0) 'lower RES
'MESURES DE 6 THERMOCOUPLES
TCDiff(Temp(),6,mV2_5C,3,TypeT,T_interne,True,0,_60Hz,1,0)
'FABRICATION DU TABLEAU DE DONNEES FINALES
CallTable Data
NextScan
EndProg
Yes and it's working !!!!