Peak Loading
3 conditions must be satisfied:
1. t1
≤
10 (second)
(P
pxt1
) +(P
oxt2
)
2. Pave =
≤
rated power
t
1
+t
2
t
1
3. Duty =
≤0.35
(refer to graphs)
t
1
+t
2
CPK 600
CPK 750
CPK1000
1. CPK115V convection
2. CPK115V forced air
3. CPK230V convection
4. CPK230V forced air
Remote ON/OFF
Option ‘-R’
Voltage Applied Between
RC (+) and RC (-)
SW ON
(4.5 - 12.5 V open circuit)
SW OFF
(0-0.5 V short circuit)
Output
ON
OFF
Example of using Remote ON/OFF
If external power source is in the range of 4.5-12.5 V, current limit resistor R is not
required. If external power source exceeds 12.5 V, current limit resistor R must be
connected.
To calculate the current limit resistance use following equation:
R (Ω) = Vcc - (1.1+Ri x 0.005)
0.005
Where;
Vcc = External Power Source
Ri = The internal resistance (780Ω)
Remote ON/OFF circuit (RC (+), RC (-) ) is isolated from input, output and FG.
Alarms
Option “-W”
• -W is available for detecting low input alarm (PF), detecting low
output voltage (LV) and operating N+1 redundancy.
• Alarm specifications are shown in Table.
• Each alarm (PF, LV) is isolated from input, output and FG.
PF
Alarm
If line voltage falls below 85 VAC
or fan stops
Output of alarm
Open collector method
Good: Low
(0-08. V, 1 mA max)
Fail: 50 V max
Open collector method
Good: Low
(0-08. V, 1 mA max)
Fail: 50 V max
If the output voltage falls out of specified
Notice:
1. When the output is over current
(intermittent current), the alarm is
unsettled status.
2. When parallel operating without
connecting diode,
LV alarm is not operating.
LV
Internal circuit of PF
Internal circuit of LV
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Rev 3.0