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Yokogawa Electric Corporation - TC10 - ENGINEERING MANUAL - PAG. 20

[132] bAud - Baud rate 

Available: 

When [131] Add different from oFF.

Range: 

1200 =  1200 baud;
2400 =  2400 baud;
9600 =  9600 baud;
19.2 =  19200 baud;
38.4 =  38400 baud.

[133] trSP - Selection of the value to be  

retransmitted 

(Master)

Available: 

When [131] Add different from oFF.

Range: 

nonE =  Retransmission not used (the instrument is 

a slave);

rSP = 

The instrument become a Master and it 
retransmits the operative set point;

PErc =  The instrument become a Master and it 

retransmits the power output.

Note: 

For more details see [84] SP.rt (Remote set point type)  

parameter.

]

COn Group - Consumption parameters

[134] Co.tY - Count type

Available: 

Always.

Range: 

oFF Not used;

1  Instantaneous power (kW);
2  Consumed  energy (kWh);
3 Reserved;
4  Total worked days: number of hours the instru-

ment is turned ON divided by 24;

5  Total worked hours: number of hours that the 

instrument is turned ON;

6  Total worked days with threshold: number of 

hours the instrument is turned ON divided by 24, 
the controller is forced in stand-by when Co.ty 

value reaches the threshold set in [137] h.Job;

7  Total worked hours with threshold: number of 

hours that the instrument is turned ON, the 
controller is forced in stand-by when Co.ty value 

reaches the threshold set in [137] h.Job;

8  Totalizer of control relay worked days: number 

of hours the control relay has been in ON condi-
tion, divided by 24;

9  Totalizer of control relay worked hours: number of 

hours the control relay has been in ON condition;

10  Totalizer of control relay worked days with 

threshold: number of hours the control relay 
has been in ON condition divided by 24, the 
controller is forced in stand-by when Co.ty value 

reaches the threshold set in [137] h.Job;

11  Totalizer of control relay worked hours with 

threshold: number of hours the control relay has 
been in ON condition, the controller is forced in 
stand-by when Co.ty value reaches the th-

reshold set in [137] h.Job.

Notes: 1. 

Selections 4 to 11 represent an internal count: 
these modes calculate the instrument work in 
hours or days.  When the count reaches the 

threshold set with parameter [137] h.Job the 

display shows “r.iSP” (Inspection Requested).

The count reset (with r.iSP cancellation) can be 
done only by changing  the threshold value - 

parameter [137] h.Job.

Using counting methods 6, 7, 10, 11, the count 

reset causes the controller to exit the stand-by 
status returning to the control status.

[135] UoLt - Nominal Voltage of the load

Available: 

When [134] Co.tY = ist or 

 

[134] Co.tY = h or 

 

[134] Co.tY = S.S.

Range: 

1 to 9999 (V).

[136] cur - Nominal current of the load

Available: 

When [134] Co.tY = ist or 

 

[134] Co.tY = h or 

 

[134] Co.tY = S.S.

Range: 

1 to 999 (A).

[137] h.Job - Threshold of the working period

Available: 

When [134] Co.tY = tot.d or 

 

[134] Co.tY = tot.H.

Range: 

oFF =  Threshold not used
1 to 9999 days when 

[134] Co.tY = 4

;

1 to 9999 hours when 

[134] Co.tY = 5

.

[138] t.Job - Worked time

 (not resettable)

Available: 

Always.

Range: 

1 to 9999 days.

]

CAL group - User calibration group

This function allows to calibrate the complete measuring 
chain and to compensate the errors due to:

 

Sensor location;

 

Sensor class (sensor errors);

 

Instrument accuracy.

[139] A.L.P - Adjust Low Point

Available: 

Always.

Range: 

-1999 to  (AH.P - 10) engineering units.

Note: 

The minimum difference between AL.P and AH.P is 
equal to 10 Engineering Units.

[140] A.L.o - Adjust Low Offset

Available: 

Always.

Range: 

-300 to +300 engineering units.

[141] A.H.P - Adjust High Point

Available: 

Always.

Range: 

From (AL.P + 10) to 9999 engineering units.

Note: 

The minimum difference between AL.P and AH.P is 
equal to 10 Engineering Units.

[142] A.H.o - Adjust High Offset 

Available: 

Always.

Range: 

-300 to +300 Engineering Units.

Example:

 Environmental chamber with an operative range: 

10 to 100°C.

1. 

Insert in the chamber a reference sensor connected with 
a reference instrument (usually a calibrator).

2. 

Start the control of the instrument, and set a set point equal to 
the minimum value of the operative range (e.g.: 10°C).  When 
the temperature in the chamber is steady, take note of the 
temperature measured by the reference system (e.g.: 9°C).

3. 

Set [139] A.L.P = 10 (low working point) and [140] 

A.L.o = -1 (it is the difference between the reading of the 
instrument and the reading of the reference system).  Note 
that after this set the measured value of the instrument is 
equal to the measured value of the reference system.

4. 

Set a set point equal to the maximum value of the 

Summary of Contents for TC10

Page 1: ...ce with the operative temperature 0 to 50 C 6 The relative humidity is in accordance with the instrument specifications 20 to 90 The instrument can be mounted on panel with a maximum thickness of 8 mm...

Page 2: ...mpedance 1 M for mV Input 500 k for Volt Input 2 2 5 mA Input 0 4 to 20 mA input wiring for passive transmitter using the auxiliary pws _ 4 to 20 mA Passive transmitter 4 1 Input impedance 53 Internal...

Page 3: ...1 OP1 Relay Output C NO 7 8 Contact rating 4 A 250 V cosj 1 2 A 250 V cosj 0 4 Operation 1 x 105 SSR Output SSR 7 8 Logic level 0 Vout 0 5 VDC Logic level 1 12 V 20 15 mA max Current Analog Output mA...

Page 4: ...l gasket is mounted for indoor locations according to EN 60070 1 Terminals protection IP 20 according to EN 60070 1 Installation Panel mounting Terminal block 16 screw terminals for cables of 0 25 to...

Page 5: ...or ON OFF or Heat Cool control with 1 alarm V N N DC Output for SSR V R R DC Output for SSR with 2 alarm relays or DCV and relay output for Heat Cool control with 1 alarm V V R 2 DCV outputs for SSR w...

Page 6: ...figuration parameters The complete configuration method allows to take advantage of all instrument features giving more capabilities it requires more actions and time Note that you can take advantage...

Page 7: ...on The upper display shows cod2 flashing while the lower display shows 0000 or the cod2 value stored in memory 6 Using and buttons set the code 2 value according to the following tables P Q R S Prepar...

Page 8: ...o return to the previous group Proceed as follows Push the button and maintaining the pressure then push the button release both the buttons Note The group selection is cyclic as well as the selection...

Page 9: ...n an underrange is detected the po wer output will be forced to the value of 8 oPE parameter 8 oPE Safety output value Available Always Range 100 to 100 of the output Notes 1 When the instrument is pr...

Page 10: ...When a Sequential set point selection is used diF1 or diF2 18 every closure of of the logic input increase the value of SPAT active set point of one step The selection is cyclic SP SP2 SP3 SP4 12 di...

Page 11: ...Heating output see warning c rEG Cooling output AL Alarm output t out Reserved t HoF Reserved P End Reserved P HLd Reserved P uit Reserved P run Reserved P Et1 Reserved P Et2 Reserved or bo Out of ran...

Page 12: ...ute band alarm with alarm indication inside the band SE br Sensor break LodE Deviation low alarm relative HidE Deviation high alarm relative LHdo Relative band alarm with alarm indication out of the b...

Page 13: ...e difference between the Alarm threshold value and the point the Alarm automatically resets 2 When the alarm threshold plus or minus the hysteresis is out of input range the instrument will not be abl...

Page 14: ...le When 36 AL2t different from nonE Range 0 Never 1 During stand by 2 During overrange and underrange 3 During overrange underrange and stand by AL3 Group Alarm 3 parameters 44 AL3t Alarm 3 type Avail...

Page 15: ...ID 52 LbAt LBA time Available When 56 Cont PID Range oFF LBA not used 1 to 9999 seconds 53 LbSt Delta measure used by LBA during Soft start Available When 52 LbAt is different from oFF Range oFF loop...

Page 16: ...ed for all process subjected to big load variation able to change heavily the process response Available When 56 cont PID Range YES self tune active no self tune not active 60 HSEt Hysteresis of the O...

Page 17: ...and soft start function are programmed the instrument performs the soft start and than the program function 4 The auto tune function will be performed after soft start function 5 The Soft start functi...

Page 18: ...ill be used as remote set point Note A 84 SPrt change produces the following actions When 84 SP rt rSP the remote set point will be forced to be equal to the active set point When 84 SP rt trin the re...

Page 19: ...t Display time out Available Always Range oFF The display is ever ON 0 1 to 99 59 minutes and seconds Note This function allows to turn OFF the display when no alarm is present and no action is made o...

Page 20: ...e threshold set with parameter 137 h Job the display shows r iSP Inspection Requested The count reset with r iSP cancellation can be done only by changing the threshold value parameter 137 h Job Using...

Page 21: ...is NOT password protected Notes 1 The limited access parameter are collected in a list 2 The sequence of the limited access parameters is programmable and can be made according to your needs 3 The par...

Page 22: ...1 when the instrument is powered it starts immediately to work according to the memorized parameter value In other words the instrument has one status only the run time status During run time we can f...

Page 23: ...ocedures Allows to start the Direct set point modification fun ction see below Allows to display the additional informations see below 7 4 2 Direct set point modification This function allows to modif...

Page 24: ...lute alarms are operative or not according to the ALxo Alarm x enabling during Stand by mode parameter setting 2 If you set stand by mode during program execution the program will be aborted 3 If you...

Page 25: ...sponsibility for any damage to people things or animals deriving from violation wrong or improper use or in any case not in compliance with the instrument s features 9 2 WARRANTY This product is under...

Page 26: ...s 1 0 7 inE Sensor error used to enable the safety output value or Over range ou Under range our Over and under range our 8 oPE Safety output value of the output 100 to 100 0 9 IO4 F I O 4 function on...

Page 27: ...d the programmed threshold 15 Ao1L Initial scale value of the analog retransmission when Out 1 is an analog output dP 1999 Ao1H 1999 16 Ao1H Full scale value of the analog retransmission when Out 1 is...

Page 28: ...days counter has reached the programmed threshold AL 23 o3AL Alarms linked up with the out 3 0 0 to 63 1 Alarm 1 2 Alarm 2 4 Alarm 3 8 Loop break alarm 16 Sensor Break 32 Overload on output 4 AL2 24 o...

Page 29: ...abled in stand by mode 2 Alarm 1 enabled in out of range condition 3 Alarm 1 enabled in stand by mode and in overrange condition 0 AL2 group no Param Description Dec Point Values Default 36 AL2t Alarm...

Page 30: ...3 enabled in stand by mode and in overrange condition 0 LBA group Loop Break Alarm Parameters no Param Description Dec Point Values Default 52 LbAt LBA time 0 From 0 oFF to 9999 s oFF 53 LbSt Delta m...

Page 31: ...0 100 to 100 0 74 SSt Soft start time 2 0 00 oFF 0 01 to 7 59 hh mm inF always ON oFF 75 SS tH Threshold for soft start disabling dP 1999 to 9999 E U 9999 SP group Set point parameters no Param Descri...

Page 32: ...d Reserved P t tu Reserved P t td Reserved ti uP Reserved ti du Reserved PErc Percent of the power output used during soft start when the soft start time is equal to infinite the limit is ever active...

Page 33: ...e controller is forced in stand by when Co ty value reaches the threshold set in 137 h Job 8 Totalizer of control relay worked days number of hours the con trol relay has been in ON condition divided...

Page 34: ...Yokogawa Electric Corporation TC10 ENGINEERING MANUAL PAG 34...

Page 35: ...Yokogawa Electric Corporation TC10 ENGINEERING MANUAL PAG 35...

Page 36: ...Yokogawa Electric Corporation TC10 ENGINEERING MANUAL PAG 36...

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