MOUNTING AND WIRING
The 35-67 is not position sensitive and can be mounted vertically
or horizontally. The control may be mounted on any surface and
fastened with #6 screws. Secure the control in an area that will
experience a minimum of vibration and remain below the maximum
ambient temperature of 73°C (165ºF). All connections should be
made with UL approved, 105°C (221°F) rated 18 gauge stranded
wire with .054" minimum insulation. Refer to Figure 4A and
Figure 5A on Page 5 when connecting the 35-67 to other
components in the system.
1. POWER-UP.
Power is applied to the full time 24 volt input. The micro-
processor will start a self-check routine of about five seconds.
After this delay, the LED will come on and the control is ready
to start a new call for heat.
Non-volatile Lockout Models Only
Models of the 35-67 with non-volatile lockout will check memory
to see if a lockout condition exists. If active, the lockout indicator
will be on and the LED will repeatedly flash 3 times. To clear the
non-volatile lockout the reset button must be pushed or 24 VAC
applied to the reset input pin. The lockout indicator will turn off
and the LED will be on steady indicating the control is ready for a
new call for heat.
2. CALL FOR HEAT.
The thermostat is turned on. The control will verify the pressure
switch contacts are open and combustion fan relay will turn on.
Proof of Pressure Switch.
The control will look for a signal from
the pressure switch, indicating that the fan is operating.
Pre-Purge Delay.
When the pressure switch signal is seen,
the pre-purge delay will start. The pre-purge indicator output will
turn on.
Pressure Switch Option.
Special models are available that
respond to a ground signal present on pin 10 during the start of
the heating sequence. This allows ignoring the open pressure
switch contact test, or disabling airflow monitoring and blower
operation when the ground is detected. This feature is useful
in multiple-control installations where only the first module is
responsible for controlling a common blower.
3. HEAT-UP
.
After the pre-purge delay, power will be applied to the hot
surface ignition element. The pre-purge indicator will turn off.
Current Proving.
The 35-67 will monitor the current through
the ignition element. When the current reaches a pre-determined
level, the LED will flash once.
Dwell Time.
From the point when the current has been proven,
there will be a delay called dwell time. Dwell time assures that
the ignition element has sufficient time to reach ignition
temperature.
4. IGNITION.
When dwell time is completed, the gas valve will
open. The ignition element will turn off 2 seconds before the
end of the ignition period.
No Flame.
Single Trial for Ignition. The control will go to post-purge,
and then lockout.
Three Trials for Ignition. The control will make two additional
purge/heatup/ignition cycles. If a flame is not proven, the control
will go to post-purge, and then lockout.
Flame is Proven.
The gas valve will remain on beyond the normal ignition period.
This continues as long as signals are present for the flame,
thermostat and pressure switch.
5. LOSS OF FLAME SIGNAL.
The gas valve will turn off.
Depending on the model chosen:
Single Trial for Ignition Models
. A new trial for ignition
cycle will start.
Three Trial for Ignition Models.
Three new ignition
cycles will start.
Post-Purge.
After all ignition cycles are complete, the control
will enter post-purge. The combustion fan will remain on.
Lockout.
After post-purge is complete, the combustion fan
will turn off. The Lockout Indicator output will turn on. The LED
will repeatedly flash three times.
SILICON CARBIDE IGNITOR
Proper location of the silicon carbide ignitor is important to achieve
optimum system performance for both ignition and flame sensing.
See Figure 1.
NOTE:
The temperature of the ceramic holder should not exceed
the manufacturer's specifications.
SEQUENCE OF OPERATION
www.fenwalcontrols.com
1-800-FENWAL-1
Figure 1
TYPICAL HOT
SURFACE IGNITOR
Figure 2
FLAME CURRENT MEASUREMENT
Flame current is the current that passes through the flame
from sensor to ground. To measure flame current, connect a
True RMS or analog DC micro-ammeter to the FC+ and FC-
terminals. The reading should be 1.0 micro-amps DC or higher.
If meter reads negative or below "0" on scale, meter leads are
reversed. Re-connect meter leads with proper polarity.
Alternately, a Digital Voltmeter may be used to measure the DC
voltage between the FC+ and FC- terminals. Each micro-amp
of flame current will produce 1.0VDC, so a reading of 2.6VDC
would equate to 2.6 micro-amps.
Page 2
Series 35-67, 24 VAC Hot Surface Ignition Control
continued above >
