RE46C145
CMOS Photoelectric Smoke Detector ASIC with Interconnect
and Timer Mode
Features:
General Description:
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The RE46C145 is a low-power, CMOS photoelectric-type smoke detector IC. With minimal external
components, this circuit will provide all the required features for a photoelectric-type smoke detector.
Internal Power On Reset
Low Quiescent Current Consumption
ESD Protection on all Pins
Interconnect up to 40 Detectors
10 Minute Timer for Sensitivity Control
Temporal Horn Pattern
Internal Low Battery and Chamber Test
Compatible with Allegro A5366
Alternate Diagnostic Mode
UL Recognized per File S24036
The design incorporates a gain-selectable photo
amplifier for use with an infrared emitter/detector pair.
An internal oscillator strobes power to the smoke
detection circuitry for 100 µs every 10 seconds to keep
standby current to a minimum. If smoke is sensed, the
detection rate is increased to verify an Alarm condition.
A High Gain mode is available for push button chamber
testing.
In diagnostic mode, the photo amplifier output is available on pin 15 for production calibration of the photo
chamber.
When in Standby, a check for a low battery condition
and chamber integrity is performed every 43 seconds.
The temporal horn pattern supports the NFPA 72
emergency evacuation signal.
An interconnect pin allows multiple detectors to be connected such that when one units alarms, all units will
sound.
An internal 10 minute timer can be used for a reduced
sensitivity mode.
The RE46C145 is recognized by Underwriters
Laboratories for use in smoke detectors that comply
with specification UL217 and UL268.
Package Types
RE46C145
PDIP, SOIC, SOICN
2009-2012 Microchip Technology Inc.
C1
1
16
TEST
C2
2
15
VSEN
DETECT
3
14
VSS
STROBE
4
13
ROSC
VDD
5
12
COSC
IRED
6
11
LED
IO
7
10
FEED
HORNB
8
9
HORNS
DS22181C-page 1
RE46C145
Functional Block Diagram
VDD (5)
Low Battery
IO (7)
+
-
FEED (10)
Horn Driver
HS (9)
+
VSEN (15)
Smoke Comparator
Logic and
Timing
HB (8)
LED (11)
V DD -3.5V
PHOTOAMP
DETECT (3)
Bias and
Power Reset
+
-
C1 (1)
IRED (6)
C2 (2)
ROSC (13)
Oscillator
COSC (12)
V DD -5V
STROBE (4)
TEST (16)
VSS (14)
Typical Application
C3
1 μF
9V
Battery
RADJ1
R3
8.2k
R2
5k
Push-to-Test
C1
.047 μF
C2
4700 pF
1
16
2
15
R12
10M
3
14
C5
1.5nF
4
13
R4
560
RADJ2
R1
4.7k
D6
R5
250k
R9
100k
Smoke Chamber
C4
100 μF
To Other Units
5
12
6
11
7
10
8
9
R7
22
R8
100
Note 1:
R13
330
Q3
D5
R6
1k
D3
C6
1.0nF
R11
220k
R10
1.5M
C3 should be located as close as possible to the device power pins.
2:
C3 is typical for an alkaline battery. This capacitance should be increased to 4.7 µF or greater for a carbon battery.
3:
R10, R11 and C6 are typical values and may be adjusted to maximize sound pressure.
DS22181C-page 2
2009-2012 Microchip Technology Inc.
RE46C145
1.0
ELECTRICAL
CHARACTERISTICS
1.1
Absolute Maximum Ratings†
† Notice: Stresses above those listed under “Maximum
ratings” may cause permanent damage to the device.
This is a stress rating only and functional operation of
the device at these or any other conditions above those
indicated in the operation listings of this specification is
not implied. Exposure to maximum rating conditions for
extended periods may affect device reliability.
VDD....................................................................................15V
Input Voltage Range Except FEED, IO .......... VIN = -.3V to VDD +.3V
FEED Input Voltage Range ..................... VINFD =-10 to +22V
IO Input Voltage Range................................. VIO1= -.3 to 15V
Input Current except FEED ................................... IIN = 10 mA
Operating Temperature ................................TA = -25 to +75°C
Storage Temperature ............................TSTG = -55 to +125°C
Maximum Junction Temperature ......................... TJ = +150°C
DC ELECTRICAL CHARACTERISTICS
DC Electrical Characteristics: Unless otherwise indicated, all parameters apply at TA = -25°C to +75°C, VDD = 9V
Symbol
Test
Pin
Supply Voltage
VDD
Supply Current
IDD1
Parameter
Input Voltage High
Input Voltage Low
Input Leakage Low
Note 1:
2:
3:
4:
Min
Typ
Max
Units
Conditions
5
6
—
12
V
Operating
5
—
4
6
µA
Configured as in Typical
Application, COSC = VSS,
LED off
IDD2
5
—
5.5
8
µA
Configured as in Typical
Application, VDD = 12V,
COSC = VSS
IDD3
5
—
—
2
mA
Configured as in Typical
Application, STROBE on,
IRED off, VDD=12V
IDD4
5
—
—
3
mA
Configured as in Typical
Application, STROBE on,
IRED on, VDD = 12V, Note 1
VIH1
10
6.2
—
—
V
FEED
VIH2
7
3.2
—
—
V
No Local Alarm, IO as Input
VIH3
15
1.6
—
—
V
VSEN
VIH4
16
8.5
—
—
V
TEST
VIL1
10
—
—
2.7
V
FEED
VIL2
7
—
—
1.5
V
No Local Alarm, IO as Input
VIL3
15
—
—
.5
V
VSEN
VIL4
16
—
—
7
V
TEST
IIL1
1,2,3
—
—
-100
nA
VDD = 12V, COSC = 12V,
STROBE active
IIL2
10,12
—
—
-100
nA
VDD = 12V, VIN = VSS
IIL3
15,16
—
—
-1
µA
VDD = 12V, VIN = VSS
ILFD
10
—
—
-50
µA
FEED = -10V
Does not include Q3 emitter current.
Not production tested.
Typical values are for design information and are not ensured.
Limits over the specified temperature range are not production tested and are based on characterization
data.
2009-2012 Microchip Technology Inc.
DS22181C-page 3
RE46C145
DC ELECTRICAL CHARACTERISTICS (CONTINUED)
DC Electrical Characteristics: Unless otherwise indicated, all parameters apply at TA = -25°C to +75°C, VDD = 9V
Parameter
Input Leakage High
Input Pull Down Current
Symbol
Test
Pin
Min
Typ
Max
Units
IIH1
1,2
—
—
100
nA
VDD = 12V, VIN = VDD,
STROBE active
IIH2
3,10,12
—
—
100
nA
VDD = 12V, VIN = VDD
IHFD
10
—
—
50
µA
FEED = 22V
IPD1
16
.25
—
10
µA
VIN = VDD
IPD2
15
.1
.25
.5
µA
VIN = VDD
IPDIO1
7
20
—
80
µA
VIN = VDD
Conditions
IPDIO2
7
—
—
140
µA
VIN = 15V, VDD = 12
Output Leakage
Current Low
IOZL1
11,13
—
—
-1
µA
Output Off, Output = VSS
Output Leakage
Current High
IOZH1
11,13
—
—
1
µA
Output Off, Output = VDD
Output Voltage Low
VOL1
8,9
—
—
1
V
Iol = 16 mA, VDD = 6.5V
VOL2
13
—
.5
—
V
Iol = 5 mA, VDD = 6.5V
.6
VOL3
11
—
—
Output Voltage High
VOH1
8,9
5.5
—
V
Iol = 10 mA, VDD = 6.5V
V
Iol = -16 mA, VDD = 6.5V
Output Current
IIOH1
7
-4
—
-16
mA
Alarm, VIO = VDD–2V or
VIO = 0V
IIODMP
7
5
—
—
mA
At Conclusion of Local Alarm
or Test, VVIO = 1V
Low Battery
Alarm Voltage
VLB
5
6.9
7.2
7.5
V
Output Voltage
VSTOF
4
VDD–.1
—
—
V
STROBE off, VDD = 12V,
IOUT = -1 µA
VSTON
4
VDD–
5.25
V
STROBE on, VDD = 9V
IOUT = 100 µA to 500 µA
VIREDOF
6
—
—
.1
V
IRED off, VDD = 12V,
IOUT = 1 µA
VIREDON
6
2.85
3.1
3.35
V
IRED on, VDD = 9V
IOUT = 0 to -6 mA, TA = +25°C
Common Mode Voltage
VCM1
1,2,3
.5
—
VDD–2
V
Local smoke,
Push to Test or Chamber Test,
Note 2
Smoke Comparator
Reference
VREF
-
VDD–3.7
—
VDD–3.3
V
Internal Reference
Temperature Coefficient
TCST
4
—
.01
—
%/ºC VDD = 6V to 12V,
STROBE Output Voltage
TCIRED
6
—
.3
—
%/ºC VDD = 6V to 12V,
IRED Output Voltage
VSTON
4,5
—
-50
—
dB
Active, VDD =6V to 12V
VIREDON
6,5
—
-30
—
dB
Active, VDD = 6V to 12V
Line Regulation
Note 1:
2:
3:
4:
VDD–5 VDD–4.75
Does not include Q3 emitter current.
Not production tested.
Typical values are for design information and are not ensured.
Limits over the specified temperature range are not production tested and are based on characterization
data.
DS22181C-page 4
2009-2012 Microchip Technology Inc.
RE46C145
AC ELECTRICAL CHARACTERISTICS
AC Electrical Characteristics: Unless otherwise indicated, all parameters apply at TA = -25°C to +75°C, VDD = 9V,
VSS = 0V, Component Values from Typical Application; R9 = 100 K, R12 = 10 M, C5 = 1.5 nF
Parameter
Oscillator Period
LED and STROBE
On Time
LED Period
STROBE
and IRED Pulse
Period
Test
Pin
Min
Typ
TPOSC
12
9.4
10.5
11.5
ms
No alarm condition
TON1
11,4
9.4
10.5
11.5
ms
Operating
TPLED1
11
39
43
47
s
TPLED2
11
.45
.5
.55
s
Local alarm condition
TPLED3
11
9.6
10.75
11.8
s
Timer mode, no local alarm
TPLED4
11
s
Remote alarm only
Symbol
Max
LED IS NOT ON
Units
Test Conditions
Standby, no alarm
TPER1
4,6
9.6
10.75
11.8
s
Standby, no alarm
TPER1A
4,6
1.8
2
2.2
s
Standby, after one valid smoke
sample
TPER1B
4,6
.9
1
1.1
s
Standby, after two consecutive
valid smoke samples
TPER2
4,6
.9
1
1.1
s
In Local Alarm (three consecutive valid smoke samples)
TPER3
4,6
7.2
8
8.9
s
In Remote Alarm
TPER4
4,6
300
336
370
ms
Push-button test
TPER5
4,6
39
47
s
Chamber Test or Low Battery
Test, no alarms
IRED On Time
TON2
6
94
104
115
µs
Operating
Horn On Time
THON1
8,9
450
500
550
ms
Operating, alarm condition,
Note 1
THON2
8,9
9.5
10.5
11.5
ms
Low Battery or Failed Chamber
test , no alarm
THOF1
8,9
450
500
550
ms
Operating, alarm condition,
Note 1
THOF2
8,9
1.35
1.5
1.65
s
Operating, alarm condition,
Note 1
THOF3
8,9
39
43
47
s
Low Battery or Failed Chamber
test, no alarm
IO Charge
Dump Duration
TIODMP
7
.9
1.46
s
At the conclusion of the Local
Alarm or Test
IO Delay
TIODLY1
7
s
From start of Local Alarm to
IO Active
IO Filter
TIOFILT
7
600
mSs
IO pulse-width ensured to be
filtered. IO as input, no local
alarm
Remote
Alarm Delay
TIODLY2
7
2.0
s
Timer Period
TTPER
10
Min
Horn Off Time
Note 1:
2:
3:
4:
0
1.05
7
8.5
No local alarm, from IO Active
to Horn Active
No alarm condition, Note 2
See timing diagram for Horn Temporal Pattern
During the Timer mode, the LED period is 10.5 seconds. The LED period will return to 43 seconds at the
conclusion of the Timer mode.
TPOSC and TON2 are 100% production tested. All other timing is ensured by functional testing.
Typical values are for design information and are not ensured.
2009-2012 Microchip Technology Inc.
DS22181C-page 5
RE46C145
TEMPERATURE CHARACTERISTICS
Electrical Specifications: Unless otherwise indicated, VDD = 9V, VSS = 0V
Parameters
Sym.
Min.
Typ.
Max.
Units
Conditions
Temperature Ranges
TA
-25
—
+75
°C
TSTG
-55
—
+125
°C
Thermal Resistance, 16L-PDIP
θJA
—
70
—
°C/W
Thermal Resistance, 16L-SOIC (150 mil.)
θJA
—
86.1
—
°C/W
Thermal Resistance, 16L-SOIC (300 mil.)
θJA
—
80
—
°C/W
Operating Temperature Range
Storage Temperature Range
Thermal Package Resistances
DS22181C-page 6
2009-2012 Microchip Technology Inc.
RE46C145
2.0
PIN DESCRIPTION
The descriptions of the pins are listed in .
TABLE 2-1:
PIN FUNCTION TABLE
RE46C145
PDIP, SOIC, SOICN
Symbol
1
C1
High Gain Capacitor Pin
2
C2
Normal Gain Capacitor Pin
3
DETECT
4
STROBE
5
VDD
Positive Power Supply
6
IRED
Infrared Emitting Diode Pin
7
IO
8
HB
Horn Brass, Inverted Output
9
HS
Horn Silver Output
10
FEED
11
LED
12
COSC
Oscillator Capacitor Input
13
ROSC
Oscillator Resistor Drive Low
2.1
Function
Photo Diode Input
Strobed Detection Negative Supply
Interconnect Pin
Horn Feedback Pin
LED Driver Pin
Negative Power Supply
14
VSS
15
VSEN
HushTimer Sensitivity Pin
16
TEST
Test Pin
High/Normal Gain Capacitor Pins
(C1, C2)
The capacitor connected to C1 pin sets the photo
amplifier gain (high) for the push-to-test and chamber
sensitivity test. The size of this capacitor will depend on
the chamber background reflections. A = 1+(C1/10),
where C1 is expressed in pF. The gain should be