K8AC-CT20S Omron, K8AC-CT20S Datasheet - Page 12

K8AC-CT20S

Manufacturer Part Number

K8AC-CT20S

Description

CURRENT TRANSFORMER .2-22A

Manufacturer

Omron

Series

K8ACr

Datasheet

1.K8AC-CT20S.pdf (24 pages)

Specifications of K8AC-CT20S

Accessory Type

Current Transformer

For Use With/related Products

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

K8ACCT20S

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K8AC-H

Voltage Fluctuation Compensation

The voltage fluctuation compensation function automatically adjusts

the burnout alarm value of the K8AC-H according to voltage

fluctuations in the heater circuit.

The operating value for burnout detection when multiple heaters are

connected is set very close to the normal value. Thus, a false burnout

alarm output will occur if there is a voltage drop in the heater circuit.

The voltage fluctuation compensation function prevents this type of

false output.

Example: Voltage Drop from 100 V to 95 V in the Heater Circuit

Gate Input

The gate input provides a sync signal used to link burnout detection

to the control output of the temperature controller.

For SSR control, the voltage output pulse from the temperature

controller is input.

For ON/OFF control, 24 VDC linked to a relay contact of the

temperature controller is input.

For cyclic or phase control, a 4 to 20-mA control signal is input.

If there is no gate input for a Heater Element Burnout Detector, a

heater burnout alarm would be falsely output when the voltage output

pulse from the temperature controller turns OFF, and there would be

no way to tell whether it was a false output.

Note: The gate input function can be disabled. If it is disabled, Heater

Power-saving Operation

If there are no key operations performed within a preset time period,

the display automatically turns OFF.

Output Operation Time Charts

Heater Burnout and Heater Layer Short Circuit

(Overcurrent) Alarms

SSR Short/Open Circuit Alarm

Heater layer short circuits

Element Burnout Detector operation will not be linked to the

temperature controller control signal. (The gate input can be

used as a simple undercurrent relay.)

Heater burnout set value

Overcurrent set value

SSR short-circuit

SSR open-circuit

Conditions:

Voltage fluctuation compensation standard value = 100 V

Burnout alarm set value = 10.0 A

If the power supply voltage drops from 100% to 95%, the

operating value will also reduced from 100% to 95%.

Burnout alarm operating value = 10.0 A × 95% = 9.5 A

Alarm output

Heater current

Alarm output

SSR indicator lights. SSR indicator lights.

Power Save Mode

Standby Time

ALM indicator lights. ALM indicator lights.

Alarm hysteresis

Heater resistance

Using the Power Regulator's Gradient Settings

The power regulator's gradient settings can be used to prevent

malfunction by setting the operation gate current level. The

relationship between the gradient settings and output current

depends on the power regulator manufacturer and model, so be sure

to check the characteristics of the power regulator being used before

setting.

Setting Example

Initial setting: 7 mA

When the power regulator's gradient settings are changed, the

operation gate current level is set so that the output current is within

the measurement range. (In the following diagram, 14 mA is set.)

Using Halogen or Other Heaters with Varying

Resistance during Phase and Cyclic Control

When phase control is used with halogen heaters or other pure metal

heaters, the heater resistance fluctuates according to the control

level. As a result, high-precision detection of heater burnout is not

possible. The effect on the heater and setting methods depends on

the heater being used. Therefore, consult with your OMRON

representative before using a heater with varying resistance values.

Halogen Heater Resistance Fluctuation Example

In the following example, burnout of one element in a six-element

heater can be detected at a control level of 20 mA, but detection is not

possible due to the effect of fluctuating resistance if the control level

is any lower.

8 Ω

6 Ω

4 Ω

2 Ω

0 Ω

Output current

Threshold

100%

4 mA

Not detected

4 mA

Measurement range

4 mA

Measurement range

7 mA

Not detected

Detectable range

7 mA

14 mA

Detected

20 mA

Normal

(six elements in parallel)

Gradient

setting 100%

Control signal

Gradient

setting 50%

Gradient

setting 100%

Control signal

Three elements

burned out

One element

burned out