RE46C144TS 데이터 시트보기 (PDF) - Microchip Technology
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RE46C144TS
Microchip Technology
RE46C144TS Datasheet PDF : 26 Pages
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3.0 DEVICE DESCRIPTION
Note: All timing references are nominal. See
electrical characteristics for limits.
3.1 Standby Internal Timing
With the external components specified in the
illustration Typical Application for ROSC and COSC,
the internal oscillator has a nominal period of 10 ms.
Normally the analog circuitry is powered down to
minimize standby current (typically 4 µA at 9V). Once
every 11 seconds, the detection circuitry (normal gain)
is powered up for 10 ms. Prior to completion of the
10 ms period, the IRED pulse is active for 100 µs. At
the conclusion of the 10 ms period, the photo amplifier
is compared to an internal reference to determine the
chamber status and latched. If a smoke condition is
present, the period to the next detection decreases and
additional checks are made. Three consecutive smoke
detections will cause the device to go into alarm, and
the horn circuit and interconnect will be active.
Once every 43 seconds, the status of the battery volt-
age is checked. This status is checked and latched at
the conclusion of the LED pulse. In addition, once
every 43 seconds the chamber is activated and, using
the high gain mode (capacitor C1), a check of the
chamber is made by amplifying background reflections.
If either the low battery or the photo chamber test fails,
the horn will chirp for 10 ms every 43 seconds.
The oscillator period is determined by the values of R9,
R12 and C5 (see Typical Application). The oscillator
period is as follows:
EQUATION 3-1:
T = TR + TF
Where:
TR = .693 x R12 x C5
TF = .693 x R9 x C5
3.2 Smoke Detection Circuitry
A comparator compares the photo amp output to an
internal reference voltage. If the required number of
consecutive smoke conditions is met, the device will go
into local alarm and the horn will be active. In local
alarm, the C2 gain is internally increased by
approximately 10% to provide alarm hysteresis.
RE46C144
3.3 Push-to-Test Operation
If the Test input pin is activated (VIH), after one internal
clock cycle, the smoke detection rate increases to once
every 330 ms. In this mode, the high-gain capacitor C1
is selected, and background reflections are used to
simulate a smoke condition. After the required
consecutive detections, the device will go into a local
alarm condition. When the Test input is deactivated
(VIL) and after one clock cycle, the normal gain
capacitor C1 is selected. The detection rate continues
at once every 330 ms until three consecutive no smoke
conditions are detected. At this point, the device
returns to standby timing.
3.4 LED Operation
In Standby, the LED is pulsed on for 10 ms every
43 seconds. In a local alarm condition or the push-to-
test alarm, the LED pulse frequency is increased to
once every .5 seconds. In the case of a remote alarm
the LED not active. In the Timer mode of operation, the
LED is pulsed on for 10 ms every 10 seconds.
3.5 Interconnect Operation
The bidirectional I/O pin allows for interconnection of
multiple detectors. In a local alarm condition, this pin is
driven high immediately through a constant current
source. Shorting this output to ground will not cause
excessive current. The I/O is ignored as an input during
a local alarm.
The I/O pin also has an NMOS discharge device that is
active for 1 second after the conclusion of any type of
local alarm. This device helps to quickly discharge any
capacitance associated with the interconnect line.
If a remote active high signal is detected, the device
goes into remote alarm and the horn will be active.
Internal protection circuitry allows for the signaling unit
to have a higher supply voltage than the signaled unit,
without excessive current draw.
The interconnect input has a 670 ms nominal digital
filter. This allows for interconnection to other types of
alarms (carbon monoxide, for example) that may have
a pulsed interconnect signal.
2009-2012 Microchip Technology Inc.
DS22180C-page 9
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