A SET A SET - dzsc.com · a set a set al1 < sv b ... b < sv -c < d s e t < < a a s e t a t b< sv sv...
2
A SET A SET AL1 < SV B < C SET D SET ( AL1 0 1 4 5 6 SV 2 3 7 8 9 ) A A B < SV C < D SET < < A A SET AT B < SV SV 1 C SET AT PV SV < ( 1,AT SV PV SV 15 2,AT AT PID 3, AT A/M MAN SV PV < A/M MAN SV PV / < < < < SET 5 B SET P I D SET < C SET PVS PVS (AL1 AL2 9 AL ( ) PV=SV ( ) ( 0000) (SV ) SV A SET RAP SET RTM ( ) ( 10 / RAP 10.0 RTM 001.0 PV PV=SV ( SET SV 0.0 /0 < C SET SRT PV 10~40 LMO V=2.0~5.0( SRT 40 LMO 2.0 40 2% ) ( ) PV SV :AC85-265V,50/60Hz(DC input :5VA max :PID PD PI P ON OFF :0-50 :50-85%RH :T/C Pt100 (4-20mA 0-5VDC 0-10VDC) : SSR : (4-20mA 1-5VDC 0-10VDC No . 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 PV SV OUT1 OUT2 AT AL1 AL2 AL3 MAN PRO < < < SET A/M / / 1 2 1 2 3 / / / 0-1370 /0-2192 F 0-1200 /0-2192 F 0-1760 /0-3216 F 0-1760 /0-3216 F 0-1820 /0-3308 F 0-1000 /0-1832 F -199.9 -400.0 /-199.9-7520 F -199.9 -600.0 /-199.9-999.0 F 4-20MA,0-1V 0-50MV.0-100MV,0-5V K J R S B E T PT100 LN 0 1 2 3 4 5 6 7 8 9 USP LSP . A SET 5 B B SET Ad1 < SV C ( ) D SET E SET 5 A SET +< C B INP < SV C ( ) D SET E SET +< < < < < A B C D E F G H 44+0.5 90+0.5 68+0.5 44+0.5 90+0.5 152+0.5 TF4 TF8 TF7 TF6 TF9 TF16 44+0.5 44+0.5 68+0.5 90+0.5 90+0.5 74+0.5 80 126 104 90 126 188 80 80 104 126 126 110 48 96 72 48 96 160 48 48 72 96 96 80 14 14 14 14 14 14 80 80 80 80 80 80 F E H G A B D C 10 1 2 3 4 5 5 7 8 9 10 11 12 13 14 15 16 17 18 19 + - + - To + - 4-20mA OUT1 + T/C ( ) Al1 NO NC POWER 85-265VAC TF6-DB10 TF4-RB10 TF7-SB10 TF9-RB10 A NO INP TYPE PV SV OUT 0.0-100.0 AT 1/0 AL1 LSP-USP AL2 LSP-USP AL3 LSP-USP GAP -50 50 RAP 0 100 RTM 0 100 B PV/SV ( SV ) 1: 0: 5 5 5 B P 3 I 240 D 60 OUD O HYS LSP-USP CYT 0-100 Hy1 LSP-USP Ad1 00-09 Hy2 LSP-USP Ad2 00-09 Hy3 USP-USP Ad3 00-09 P1 3 I1 240 D1 60 Ct1 0-100 OUL 0.0 OUH 100.0 MAN 0 LCK 000-111 C 1 (%) P OO N-OFF 1 ( ) I 0 1 ( ) D 0 0: 1: 1 ( ) 1 ( ) 0 MA 1 SSR 1 ( ) 1 ( ) 2 (%) P1 0 ON-OFF 2 ( ) I1 0 2 ( ) D1 0 2 ( ) O MA 1 SSR 0: 1: DATALOCK 2 ( ) 2 ( ) 3 ( ) 3 ( ) SET LSP -1999-9999 USP -1999-9999 CF 1/0 SFT 0-31 DP 0-3 PVS -50-50 BAD 0 ADD 0-255 TOP 0-100 UO 0-100 SRT 0 100 LMO 0 100 RSL 0 1 CL1 100% CH1 100% TH 0 2 O 1: F 30 PV SV 0:9600 AT At PV/SV ( SV ) INP B-LN C SET SET SET SET SET SET SET SET5 SET+ < SET SET SET SET SET SET SET SET SET SET SET SET SET SET SET SET SET SET SET SET SET SET SET SET SET SET SET SET SET SET SET SET SET SET SET SET +<
Transcript of A SET A SET - dzsc.com · a set a set al1 < sv b ... b < sv -c < d s e t < < a a s e t a t b< sv sv...
A SET A SET AL1 < SVB < C SETD SET
( AL1 0 1 4 5 6 SV 2 3 7
8 9 )
A A B < SV C <D SET
<<
A A SET ATB < SV SV 1C SET AT
PVSV
<
( 1,AT SV PV SV 15
2,AT AT
PID
3, AT
A/M MANSV PV
< A/M MANSV PV
/
< <
<<
SET 5 B SET PI D
SET <C SET PVSPVS
(AL1 AL29 AL
( ) PV=SV( ) (
0000)
(SV )SV A SET
RAP SET RTM( ) ( 10 / RAP
10.0 RTM 001.0PV PV=SV
( SET SV
0.0 /0
<
C SET SRT PV10~40 LMO
V=2.0~5.0( SRT40 LMO 2.040 2% )
( )PVSV
:AC85-265V,50/60Hz(DC input
:5VA max
:PID PD PI P ON OFF
:0-50
:50-85%RH
:T/C Pt100
(4-20mA 0-5VDC 0-10VDC)
: SSR :
(4-20mA 1-5VDC 0-10VDC
No .123456789
101112131415
PVSV
OUT1OUT2
ATAL1AL2AL3
MANPRO
<
<
<SETA/M
/
/
1
2
1
2
3
/
/
/
0-1370 /0-2192 F
0-1200 /0-2192 F
0-1760 /0-3216 F
0-1760 /0-3216 F
0-1820 /0-3308 F
0-1000 /0-1832 F
-199.9 -400.0 /-199.9-7520 F
-199.9 -600.0 /-199.9-999.0 F
4-20MA,0-1V0-50MV.0-100MV,0-5V
K
J
R
S
B
E
T
PT100
LN
0123456789
USP
LSP.
A SET 5 B B SET Ad1 < SV C ( ) D SET E SET 5
A SET +< CB INP < SVC ( )D SETE SET +<
<
<
<
<
A B C D E F G H
44+0.5
90+0.5
68+0.5
44+0.5
90+0.5
152+0.5
TF4
TF8
TF7
TF6
TF9
TF16
44+0.5
44+0.5
68+0.5
90+0.5
90+0.5
74+0.5
80
126
104
90
126
188
80
80
104
126
126
110
48
96
72
48
96
160
48
48
72
96
96
80
14
14
14
14
14
14
80
80
80
80
80
80
F
EHG
A
B
D
C
10
1
2
3
4
5
5
7
8
9
10
11
12
13
14
15
16
17
18
19+
-
+
-
To
+
-
4-20mA OUT1
+
T/C( )
Al1
NO
NC
POWER85-265VAC
TF6-DB10
TF4-RB10TF7-SB10
TF9-RB10
A
NO
INP
TYPE
PV
SV
OUT
0.0-100.0
AT
1/0
AL1
LSP-USP
AL2
LSP-USP
AL3
LSP-USP
GAP
-50 50
RAP
0 100
RTM
0 100
B
PV/SV( SV )
1:0:
5
5
5
B
P
3
I
240
D
60
OUD
O
HYS
LSP-USP
CYT
0-100
Hy1
LSP-USP
Ad1
00-09
Hy2
LSP-USP
Ad2
00-09
Hy3
USP-USP
Ad3
00-09
P1
3
I1
240
D1
60
Ct1
0-100
OUL
0.0
OUH
100.0
MAN
0
LCK
000-111
C
1 (%)P OO N-OFF
1 ( )I 0
1 ( )D 0
0 :1 :
1 (
)
1 ( )0 MA 1 SSR
1 (
)
1 ( )
2 (%)P1 0 ON-OFF
2 ( )I1 0
2 ( )D1 0
2 ( )O MA 1 SSR
0:1:
DATALOCK
2 (
)
2 ( )
3 (
)
3 ( )
SET
LSP
-1999-9999
USP
-1999-9999
CF
1/0
SFT
0-31
DP
0-3
PVS-50-50
BAD0
ADD0-255
TOP0-100
UO0-100
SRT0 100
LMO0 100
RSL0 1
CL1100%
CH1100%
TH0 2
O
1: F
30
PVSV
0:9600
AT
At
PV/SV( SV )
INP
B-LN
C
SET
SET
SET
SET
SET
SET
SET
SET5
SET+ <
SET
SET
SET
SET
SET
SET
SET
SET
SET
SET
SET
SET
SET
SET
SET
SET
SET
SET
SET SET
SET
SET
SET
SET
SET
SET
SET
SET
SET
SET
SET
SET
SET
SET
SET
SET +<
LEVEL A
POWER ON
Self-diagnostic
INP
TYPE
L.S.P.L.
U.S.P.L.
PV
SV
OUT
0.0-100.0
AT
1/0
AL1
LSP-USP
AL2
LSP-USP
AL3
LSP-USP
GAP
-50 50
RAP
0 100
RTM
0 100
LEVEL B
Control set
IndicatorLighting
Input type
Input range
Control settemperature
Output display(auto)set ouput(manual)
Auto tuning1:AT on0:AT off
Alarm1 set
5sec
5sec
5sec
ControlParameter
P
3
I
240
D
60
OUD
O
HYS
LSP-USP
CYT
0-100
Hy1
LSP-USP
Ad1
00-09
Hy2
LSP-USP
Ad2
00-09
Hy3
USP-USP
Ad3
00-09
P1
3
I1
240
D1
60
Ct1
0-100
OUL
0.0
OUH
100.0
MAN
0
LCK
000-111
Propotion band(%)P=ois on/off
Integral time(set)
Derivative time(set)
0 : h e a t i n g1 : c o o l i n g
Output1hystersis
Cycle t ime(set)0:4-20mA1:SSR
Alarmlhystersis
Alarmlmode set
Propotion band(%)p=oison/of f(only bi -mode)
Integral t ime(set)(only bi -mode)
OutputLow l imit
Outputhigh l imit
0:manual enable1:manual inhibi t
DATALOCK
Alarm 2 hystersis
Alarm2mode set
Alarm3hystersis
Alarm3mode set
H OPERATING FLOW-CHART
Calibration
LSP
-1999-9999
USP
-1999-9999
CF
1/0
SFT
0-15
DP
0-3
SRT
0 100
PVS-50-50
LMO0 100
BAD0
RSL0 1
ADD0-255
CL1100%
TOP0-100
TH0 2
UO0-100
Lower Limit forsv
Input type set
(set input table)
Upper limit for sv
O
1: F
Input filter
Input(for analog)
Decimal set
PVSV
Process value of fset
Baud rate0:9600
Communicat ion address
Generated by AT
G e n e r a t e d b y A T
PV/SV
INP
B-LN
TF-Series Temperature Controller
O P E R A T I O N G U I D E
A GENERAL CHARACTERISTICS
Power supply:AC85-265V,50/60Hz(DC input is optional
Power consumption:5VA max
Control method:PID PD PI P ON/OFF
Operating ambient temperature:0-50
Operating ambient humidity:50-85%RH
Input type supported:T/C, RTD, 4-20mA, 1-5VDC, 0-10VDC
Output type supported:Relay, Pulse(for driving SSR), 4-20mA
B DESCRIPTION OF FRONT PANEL
No .123456789
101112131415
SYMBOLPVSV
OUT1OUT2
ATAL1AL2AL3
MANPRO
<
<
<SETA/M
DESCRIPTION
process value(Present value)
set value(Expected value)
output l operation indicator
output2 operation indicator
auto tuning operation indicator
alarm lindicator
alarm2indicator
alarm3in dicator
manual operation indicator
program runing indicator
up key
down key
shift key
mode/enter key
auto/manual select key
C TABLE OF INPUT/ALARM MODE
Input type
0-1370 /0-2192 F
0-1200 /0-2192 F
0-1760 /0-3216 F
0-1760 /0-3216 F
0-1820 /0-3308 F
0-1000 /0-1832 F
-199.9 -400.0 /-199.9-7520 F
-199.9 -600.0 /-199.9-999.0 F
ANALOGSIGNAL4-20MA, 0-1V0-50MV.0-100MV,0-5V
K
J
R
S
B
E
T
PT100
LN
Alarm code Description
0123456789
Deviation high alarm
Deviation low alarm
Absolute value high alarm
Absolute value low alarm
In-band alarm
Out-of-band alarm
Thermal Couple broken alarm
Expected-PV-Met timer trigger alarm
1,Change between different levels*In levelA, press SET key for 5 seconds to enter level B*in levelA, press SET key with<key simultaneously and then release to enter level c*in levelB press SET key for 5 seconds to back to level A*in level C press SET key with<key and then release to back to level A*if there is no action for one minute in mode leveB or levelC, it will back to level A automatically
A B C D E F G H
44+0.5
90+0.5
68+0.5
44+0.5
90+0.5
152+0.5
TF4
TF8
TF7
TF6
TF9
TF16
44+0.5
44+0.5
68+0.5
90+0.5
90+0.5
74+0.5
80
126
104
90
126
188
80
80
104
126
126
110
48
96
72
48
96
160
48
48
72
96
96
80
14
14
14
14
14
14
80
80
80
80
80
80
F
EHG
A
B
D
C
PANEL CUT OUT DIMENSIONS
F DIMENSION AND PANEL CUT OUT
10
1
2
3
4
5
5
7
8
9
10
11
12
13
14
15
16
17
18
19+
-
+
-
+
-
4-20mA OUT1
+
T/C
Al1
NO
NC
POWER85-265VAC
TF6-DB10
Input signal higher than USP
Input signal lower than LSP
Cold junction compensation failure
Broken Thermal Couple
Check input signalInput signal out-of-rangeNo input signal
.
Error code
D ERROR CODE FOR SELF-DIAGNOSTIC
E WIRING EXAMPLES
TF4-RB10TF7-SB10
TF9-RB10
Symbol Range
Deviation low alarm(without alarm for first time)Absolute value low alarm(Without alarm for first time)
Description Possible cause
Check input signalInput signal out-of-rangeNo input signal
CJC diode brokenCJC diode poor contact
Thermal Couple broken
(The pin assignment of each controller is subject to change,please refer to the label attached in the back panel of each controller)
POWER
LOAD
POWER
J:Contactor
POWER
POWER
LOAD
POWER
LOAD
POWER
J:Contactor
POWER
TO POWER
SCR POWER CONTROLLER
Typedinen sions
2,Basic setup procedureTo use this controller is very easy, please follow the following steps to do the basic setup:Step1:Setup input type a press SET key with<key simultaneously and then
release to enter level C b find the menu INP c press<key one time and will find the SV value blinking d press key or key to change the input type as needed e press SET key to enter new input type f press SET key with<key simultaneously and then release toback to level AStpe2:Setup the alarm mode Ad1(same procedure for Ad2 or Ad3) a press SET key for 5 seconds to enter level B b press SET key several times to find menu Ad1 c press<key one time and will find the SV(alarm mode) value blinking d press key or key to change the alarm mode(0-9)as needed e press SET key to enter the alarm mode value f press SET key for 5 seconds to back to level AStpe3:Setup the value for alarm AL1(same procedure for Al2 and A13) a in level A, press SET key several times to find Al1 b press<key one time and will find the SV value blinking c press key or key or<key to setup the value needed d press SET key to enter the valueStep4:Setup the expected temperature(SV) a in level A, press the<key one time and will find the SV value blinking b press the key or key or<key to setup the value needed c press SET key to enter the valueStep5:Activate Auto-Tuning(AT)in order to get proper PID value a in level A, press SET key several times to find menu AT b press<key one time and change the value from 0 to 1 c press SET key to enter the value d the controller will now entre Auto-Tuning mode immediately, the AT indicator on the panel will be ON for several minutes, Do not interrupt it until the AT indicator is OFF e while the AT indicator is OFF, the Auto-Tuning process is completed. The basic setup for this controller is now completed
3,Advanced setupAdvanced setup is probably required for some particular environments. a Switching between Manually and Automatically output mode press the A/M key, the MAN indicator will be ON and enter the manually mode.The PV value in this mode represent measured value and the SV value represent the percentage of output power. Press the<key and press key or key may adjust the output power. Press the A/M key again to back to automatically output mode. b Adjust PID value manually manual adjustment for P,I,D values may be required for some particular working environments.Please entre mode level B and find the P, I, D value respectvely and adjust them. c Temperature discrepancy adjustment When you short the two pins of T/C input in the back panel of this controller, the PV value should be very close to the room temperature. If there is a discrepancy between PV value and room temperature,you may use menu PVS to correct it. Please enter the mode levelC and find menu use<key and key or key to put the corrective value.(Plus or minus d Setup Expected-PV-Met timer alarm Find one of the alarms and set the alarm mode(ex:Ad1)as value 9 .And then setup the value of timer with value of alarm(ex:AL1).Once the PV meet the SV, it trigger the timer and the timer start to count down (unit is minute). Once the timer count down to zero, the alarm activate. e Soft start with ramp(optional) if you need your heater start with a fixed increasing temperature ramp, please setup this function as following. In level A, find menu for RAP and RTM. The increasing ramp for the heater is RAP/RTM. For instance, we set RAP as 10.0 and RTM as 001.0, it means that the increasing temperature ramp is 10 /minute.A value 0 for both RAP and RTM means disable the ramp function. f Activate the de-humidity function(optional) If your system need de-humidity function, please setup it with the following procedure. In mode level C, press SET key several times to find menu SRT. Please preset the de-humidity temperature into it, in general, the value is between 10 to 40 (ex:40),And then find the other menu LMO, please preset the output power percentage while activating the de-humidity function into it. Its around 2.0 to 5.0(ex:2.0).Once the setup is complete, when the system is powered on, the percentage of output power will be kept on 2.0 percent while the temperature of heater is under 40 .Its a good way to prevent the heater from damaged by high humidity.
LEVEL B LEVEL C
Press set
Press set
Press set
Press set
Press set
Press set
Press set
Press set
Press set 5sec
Alarm2 set
Alarm3 set
Set
Set
Set
Set
Set
Set
Set
Set
Set
Set
Set
Set
Set
Set
Set
Set
Derivat ive t ime(set)(only bi -mode)
Cycle t ime(set)(only bi -mode)
Set
Set
Set+<
Set
Set
Set
Set
Set
Set
Set
Set
Set
Set
Set
Set
Set
Set
Set
Set
Set+<
G MANIPULATION
<
<
<
<
<
<
<
<
< <
<
<
Cool off the cleftSV1=SV+GAP
Inclined rate( RAP/ RTM)The enactment
Inclined rate( RAP/ RTM)Time enactment
In addition to the wet temperature enactmentSRT=0, this function nonentity
Output the percentage fixedly in addition to the wet processLMO=0, this function nonentity
Inclined rate hour, the SV dynamic state manifestation0:Have 1:Have no
Assist to control the OUT2 electric current to outputAdjust zero:00
Assist to control the OUT2 electric current to outputThe full degree adjust
Assist to control the OUT2 function choice0:The OUT2 is the cold hot admixture control1:The OUT2 is the PV transmission to output2:The OUT2 is the SV transmission to output
Temperature
Ch1100%
LEVEL C
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