background image

i

USER’S  OPERATING  MANUAL  FOR  PID  DIGITAL  TEMPERATURE  CONTROLLER

(Models: Px 428 / 728 )

SPECIFICATIONS : -

1

 

SAFETY INSTRUCTION :

 

installing or commissioning of controller. All safety 

 

GENERAL

 

the controller must not exceed the maximum specified 

 

operation. Incorrect configuration could result in 

 

related instruction appearing in this manual must be 

 

applications. It is important to read the manual prior to 

 

or it may lead personnel injury.

 

to the user after installation.

v

The Controller in its installed state must not come in 

v

The Controller in its installed state should not be 

 

exposed to carbon dust, salt  air, direct sunlight or 

v

Ambient temperature and relative humidity surrounding 

 

ELECTRICAL

v

Circuit breaker or mains s/w with fuse (275V/1A) must 

 

close proximity to any corrosive/combustible gases, 

 

followed to ensure safety of the operating personnel as 

v

  The controller must be configured correctly for intended 

v

  The controller is generally part of control panel and in 

 

well as the instrument.

 

such a case the terminals should not remain accessible 

 

This controller is meant for temperature control 

 

MECHANICAL

 

products.

v

The controller in its installed state must be protected 

 

interferences. Ventilation holes provided on the chassis 

 

must comply with local electrical regulation.

v

Care must be taken not to connect AC supplies to low 

 

caustic vapours, oils, steam or any other process by- 

 

radiant  heat.

 

of the instrument are meant for thermal dissipation 

 

voltage sensor input.

v

To minimize pickup of electrical noise, the wiring for low 

 

damage to the equipment or the process under control 

 

limit  for proper operation of the controller.

 

to protect the controller from any possible damage due 

 

driving high voltage loads to protect the controller from 

 

this, use shielded ground at both ends.

 

against excessive electrostatic or electromagnetic 

 

hence  should not be obstructed in the panel.

v

The controller should not be wired to a 3-Phase supply 

 

such supply could rise above 264 VAC which will damage 

 

any possible damage due to short circuit on loads.

v

Circuit breaker and appropriate fuses must be used for 

v

The controller must be wired as per wiring diagram & it 

 

to high voltage surges of extended duration.

 

high current power cables. Where it is impractical to do 

 

the controller.

 

be  installed between power supply and supply terminals 

v

The Electrical noise generated by switching inductive 

 

loads might create momentary Fluctuation in display, 

 

alarm latch up, data loss or permanent damage to the 

 

with unearthed star connection. Under fault condition 

 

voltage DC and sensor input must be routed away from 

 

being controlled.

 

spoiling the product, this could damage the process 

 

to avoid any failure of heating system. Apart from 

 

instrument. To reduce this use snubber circuit across  

 

the load.

It is essential to install a over Temp. Protection device 

 

 

 

 

    2 

: Alarm Status

 

 

 

 

    S 

: Soak Timer

                                                       T         : Tuning Status (Only Px-X28) 

    Range 

       : Refer below table.

2. INPUT

    CJC for TC   

 

: Built in automatic

1. DISPLAY TYPE 

 

: Dual

 

4- Digit

 

7 Segment LED

 

 

 

 

  4 Digit Bright White (PV)

 

 

 

 

  4 Digit Luminous Green (SV)

     STATUS LED’S 

 

:  1         : Main Control Output

    Sensor input      : TC:J,K,R,S,N,T,B, RTD: Pt-100 & 

Pt-100(RTD 0.1)

    

    
    Sampling Time                    : 125 msec.
    Resolution   

 

: 1°C/0.1°C(Only for RTD)

    LWC for Pt-100 

 

: Built in upto 18E max.

3. RELAY OUTPUT

    Digital Filter                         : 1 to 10 Sec.

    Contact type 

 

: N/O, CM, N/C

    Contact Rating 

 

: 5A @ 250VAC or 30 VDC

    Life expectancy 

 

: > 5,00,000 operations

    Isolation 

 

 

: Inherent

    Compliance                           : ----

 

 

 

 

  3) Soak timer

    Isolation 

 

 

: Non-Isolated.

 

 

 

 

  1) Auxiliary control

5. FUNCTION 

6. ENVIRONMENTAL

    Output 1 

 

 

: Main Control output

 

 

 

 

  2) Alarm

    Storage Humidity 

 

: 95% Rh (Non-condensing)

    Consumption 

 

: 4W Maximum.

8. PHYSICAL

7. POWER SUPPLY

    Control Action                      : ON-OFF/PID (Select)

    Housing 

 

 

: ABS Plastic

    Drive Capacity 

 

: 12V @ 30mA.

    Output 2 

 

 

: Programmable

 

 

 

 

  4) Alarm + Soak timer

    Control Mode                        : Heat, Cool, Heat/Cool (Select)

4. SSR DRIVE OUTPUT

    Operating Range 

 

: 0 ~50°C, 5~90% Rh

    Supply Voltage 

 

: 90~270VAC, 50/60Hz.

Model no.

Display height (PV)

Display height (SV)

Px-428

0.36”

0.70”

0.24”

0.50”

Px-728

Fe-k(J) T/C

Cr-AL(K) T/C

Sensor Type 

Accuracy

  

o

± 1  C

o

0 ~ 1700 C

o

0 ~ 1700 C

o

0 ~ 1800 C

o

-100 ~ 450 C

Resolution

Range

o

1  C

o

1  C

o

1  C

}

(R) T/C

(S) T/C

TC - N

TC - T

TC - B

Pt-100(RTD)

Pt-100(RTD 0.1)

o

760 C

o

-99 

1300 C

o

-99 

1300 C

o

-99 

400 C

o

-99.9 ~ 450.0 C

o

1  C

o

1  C

o

1  C

o

1  C

o

1  C

o

0.1  C

o

± 0.3  C

OIM Px-X28 V2.0 Page 1 of 9

(72x72)

Px-728

(48x48)

Px-428

Summary of Contents for Px-428

Page 1: ...ads v Circuit breaker and appropriate fuses must be used for v The controller must be wired as per wiring diagram it to high voltage surges of extended duration high current power cables Where it is i...

Page 2: ...1 For SP programming 2 To access Control mode 3 To access Configuration mode along with UP key 4 To scroll the parameter to store its value 1 To increase alter parameter value in program mode 2 To ent...

Page 3: ...ed as soak timer Controller starts the execution of soak time as per the mode selected Soak timer can be programmed using four different time base in Config List 1 Either absolute auxiliary control or...

Page 4: ...Output1 is configured for Heat Cool SP set point will be consider as SP Gap1 for heating This parameter will be prompted only if selected control mode for output2 is Auxiliary control or an Alarm The...

Page 5: ...ut is ON PV decreases when output is ON User can select cooling logic in which OP1 will remain ON till PV SP This parameter will be prompted only if selected input is RTD or RTD 1 and is used for BOD...

Page 6: ...vated By pressing DOWN key Lower display will Toggle between SP1 value SP2 value Alarm SP Value AL SP Timer value SOAK By this parameter Lower display will only show the SP1 value By this parameter Lo...

Page 7: ...ompletion of current soak time cycle 1 At every Power ON 3 Power failure during soak time is in progress In this Mode Timer will start only after pressing START key for 3 sec PV SV for any of the foll...

Page 8: ...will Disable Alarm O P at power ON If this parameter is set as NO Alarm condition persists it will Enable Alarm O P at power up Once the Alarm is activated User has following three options to de activ...

Page 9: ...remains OFF till actual temperature drops down in Heat Logic or raises in Cool Logic equal to hysterisis set by user As shown in Fig 3 1 3 2 If the control performance by using auto tuning is still u...

Page 10: ......

Page 11: ......

Page 12: ...remains OFF till actual temperature drops down in Heat Logic or raises in Cool Logic equal to hysterisis set by user As shown in Fig 3 1 3 2 2 Substantial change in SP from previous auto tuning value...

Reviews: