Data Sheet 26110.11* 5366 PHOTOELECTRIC SMOKE DETECTOR WITH INTERCONNECT AND TIMER C1 1 16 TEST C2 2 15 HUSH DETECT 3 14 – SUPPLY STROBE 4 13 TIMING RES. + SUPPLY 5 12 OSC. CAP. IRED 6 11 LED I/O 7 10 FEEDBACK HORN 1 8 V SS OSC. & TIMING V DD LOGIC HORN DRIVER 9 HORN 2 Dwg. PC-007 The selectable Hush Feature may be covered by U.S. patent number Re. 33,920. Any sale or use of the Hush Feature in a smoke alarm in the U.S. would be a possible infringement of this patent. ABSOLUTE MAXIMUM RATINGS (Voltages are referenced to VSS) Supply Voltage Range, VDD .................................... -0.5 V to +15 V Input Voltage Range, VIN ............................ -0.3 V to VDD + 0.3 V Input Current, IIN ................................... 10 mA Operating Temperature Range, TA ..................................... -25°C to +75°C Storage Temperature Range, TS ................................... -55°C to +125°C CAUTION: CMOS devices have input static protection but are susceptible to damage if exposed to extremely high static electrical charges. The A5366CA is a low-current BiCMOS circuit providing all of the required features for a photoelectric type smoke detector. This device can be used in conjunction with an infrared photoelectric chamber to sense scattered light from smoke particles. Special features are incorporated in the design to facilitate calibration and testing of the finished detector. The device is designed to comply with Underwriters Laboratories Specification UL217. A variable-gain photo amplifier can be directly interfaced to an infrared emitter/detector pair. The amplifier gain levels are determined by two external capacitors that are then internally selected depending on the operating mode. Low gain is selected during standby and timer modes. During a local alarm this low gain is increased (internally) by ~10% to reduce false triggering. High gain is used during the pushbutton test and during standby to periodically monitor the chamber sensitivity. The internal oscillator and timing circuitry keeps standby power to a minimum by sensing for smoke every 10 seconds in a 100 µs window. A special three-stage speedup sensing scheme is incorporated to minimize the time to an audible alarm and also to reduce false triggering. Also, two consecutive cycles of degraded chamber sensitivity are required for a warning signal to occur. The A5366CA is supplied in a low-cost 16-pin dual in-line plastic package. It is rated for continuous operation over the temperature range of -25°C to +75°C. FEATURES ■ ■ ■ ■ ■ ■ ■ ■ ■ Interconnect Up to 50 Detectors Piezoelectric Horn Driver All Internal Low-Battery Detection Power-ON Reset Internal Timer & Control for Reduced Sensitivity Built-In Circuits to Reduce False Triggering 6 V to 12 V Operating Voltage Range ESD-Protection Circuitry on All Pins Temporal Horn Pattern Always order by complete part number: A5366CA . 5366 PHOTOELECTRIC SMOKE DETECTOR with INTERCONNECT and TIMER FUNCTIONAL BLOCK DIAGRAM + SUPPLY V I/O DD 5 9V 7 BAND-GAP REFERENCE V FEEDBACK DD 10 9 HORN – + HORN 1 LOW BATTERY LOGIC 11 C1 1 C2 2 STROBE 4 POWER-ON RESET – + 3 TIMING RES. +V 13 OSCILLATOR & TIMING V DD IRED +V LED PHOTO AMP DETECT 2 8 12 OSC. CAP. 6 – SUPPLY 14 15 16 V SS HUSH TEST Dwg. FC-006 2 115 Northeast Cutoff, Box 15036 Worcester, Massachusetts 01615-0036 (508) 853-5000 Copyright © 2001, 2002 Allegro MicroSystems, Inc. 5366 PHOTOELECTRIC SMOKE DETECTOR with INTERCONNECT and TIMER DC ELECTRICAL CHARACTERISTICS at TA = -25°C to +75°C*, VSS = 0 V, in typical application (unless otherwise noted). Characteristic Symbol Supply Voltage Range VDD Operating Supply Current IDD Test Pin VDD Min. 5 – 6.0 – 12 V Average Standby Configured per Figure 1 5 12 – – 12 µA During Strobe ON, IRED OFF, Configured per Figure 1 5 12 – – 2.0 mA During Strobe ON, IRED ON, Configured per Figure 1 5 12 – – 3.0 mA Test Conditions Limits Typ. Max. Units Low-Level Input Voltage VIL 7 10 16 15 9 9 9 9 – – – – – – – – 1.5 2.7 7.0 0.5 V V V V High-Level Input Voltage VIH 7 10 16 15 9 9 9 9 3.2 6.3 8.5 1.6 – – – – – – – – V V V V Input Leakage High IIH 1, 2 12 – – 100 nA 3, 10, 12 12 – – 100 nA VIN = VST, Strobe Active, Pin 12 @ VDD 1, 2, 3 12 – – -100 nA VIN = VSS 10, 12 12 – – -100 nA 15, 16 12 – – -1.0 µA 16, 15 9 0.25 – 10 µA No Local Smoke, VIN = VDD 7 9 20 – 80 µA No Local Smoke, VIN = 17 V 7 12 – – 140 µA IO = 10 mA 11 6.5 – – 0.6 V IO = 16 mA 8, 9 6.5 – – 1.0 V IO = 5 mA 13 6.5 – 0.5 – V 8, 9 6.5 5.5 – – V VIN = VDD, Strobe Active, Pin 12 @ VDD VIN = VDD Input Leakage Low Input Pull-Down Current Low-Level Output Voltage IIL IIN VOL VIN = VDD High-Level Output Voltage VOH IO= -16 mA Strobe Output Voltage VST Inactive IO = -1 µA 4 12 VDD - 0.1 – – V Active, IO = 100 µA to 500 µA 4 9 VDD - 5.25 – VDD - 4.75 V Continued... www.allegromicro.com 3 5366 PHOTOELECTRIC SMOKE DETECTOR with INTERCONNECT and TIMER DC ELECTRICAL CHARACTERISTICS, continued Characteristic Symbol Line Regulation ∆VST(∆VDD) Strobe Temperature Coeff. IRED Output Voltage Line Regulation IRED Temperature Coefficient αST VIRED Test Pin VDD Min. Active, VDD = 6 V to 12 V 4 – – -60 – dB VDD = 6 V to 12 V 4 – – 0.01 – %/°C Inactive IO = 1 µA, TA = +25°C 6 12 – – 0.1 V Active IO = -6 mA, TA = +25°C 6 9 2.85 3.1 3.35 V – -35 – dB Test Conditions ∆VIRED(∆VDD) Active, VDD = 6 V to 12 V αIRED 6 Limits Typ. Max. Units VDD = 6 V to 12 V 6 – – +0.40 – %/°C 7 9 -4.0 – – mA High-Level Output Current IOH VDD = Alarm, I/O active, VO = VDD - 2 V OFF Leakage Current High IOZ VO = VDD 11, 13 12 – – 1.0 µA OFF Leakage Current Low IOZ VO = VSS 11, 13 12 – – -1.0 µA Low VDD Alarm Threshold VDD(th) 5 - 6.9 7.2 7.5 V Common Mode Voltage Smoke Comparator Ref. Volt. VIC Any Alarm Condition 1, 2, 3 - VDD - 4 – VDD - 2 V VREF Any Alarm Condition Internal - VDD - 3.7 – VDD - 3.3 V * Limits over the operating temperature range are based on characterization data. Characteristics are production tested at +25°C only. Typical values are at +25°C and are given for circuit design information only. AC ELECTRICAL CHARACTERISTICS at TA = -25°C to +75°C*, VSS = 0 V, in typical application (unless otherwise noted). Characteristic Symbol Test Conditions Test Pin Limits Typ. Max. VDD Min. 12 9 9.4 10.5 11.5 ms Units Oscillator Period tosc Led Pulse Period tled1 No Local or Remote Smoke 11 9 39 – 48 s tled2 Remote Smoke Only 11 9 None – – – tled3 Local Smoke or Test 11 9 0.45 0.50 0.55 s tled4 Timer Mode, No Alarm 11 9 9.67 10.75 11.83 s 11 9 9.5 – 11.5 ms Led Pulse Width tw(led) Continued... 4 115 Northeast Cutoff, Box 15036 Worcester, Massachusetts 01615-0036 (508) 853-5000 5366 PHOTOELECTRIC SMOKE DETECTOR with INTERCONNECT and TIMER AC ELECTRICAL CHARACTERISTICS, continued. Characteristic Strobe Pulse Period Symbol Test Conditions Test Pin VDD Min. Limits Typ. Max. Units tst1 No Local or Remote Smoke 4 9 9.6 – 11.9 s tst2 After 1 of 3 Valid Samples 4 9 1.8 2.0 2.2 s tst3 After 2 of 3 Valid Samples and During Local Alarm 4 9 0.8 1.0 1.1 s tst4 Remote Alarm 4 9 7.2 8.0 8.9 s tst5 Chamber Test or Low Supply Test, No Local Alarm 4 9 38.9 – 47.1 s tst6 Pushbutton Test, No Alarm 4 9 300 336 370 ms 4 9 9.5 – 11.5 ms Strobe Pulse Width tw(st) IRED Pulse Period tired1 No Local or Remote Smoke 6 9 9.6 – 11.9 s tired2 After 1 of 3 Valid Samples 6 9 1.8 2.0 2.2 s tired3 After 2 of 3 Valid Samples and During Local Alarm 6 9 0.8 1.0 1.1 s tired4 Remote Alarm 6 9 7.2 8.0 8.9 s tired5 Chamber Test, No Local Alarm 6 9 38.9 – 47.1 s tired6 Pushbutton Test, No Alarm 6 9 300 336 370 ms 6 9 94 – 116 µs IRED Pulse Width tw(ired) IRED Rise Time tr(ired) 10% to 90% 6 – – 30 µs IRED Fall Time tf(ired) 90% to 10% 6 – – 200 µs I/O to Active Delay td(io) Local Alarm 7 9 – 0 – s I/O Charge Dump Duration tdump End of Local Alarm or Test 7 9 0.9 1.0 1.1 s Rising Edge on I/O to Alarm tr(io) No Local Alarm 7 9 – – 1.34 s Horn Warning Pulse Period thorn Low Supply and Degraded Chamber Sensitivity 8, 9 9 38.9 – 47.1 s Horn Warning Pulse Width tw(horn) Low Supply and Degraded Chamber Sensitivity 8, 9 9 9.5 – 11.5 ms Horn ON Time ton(horn) Local or Remote Alarm 8, 9 9 450 500 550 ms Horn OFF Time toff1(horn) Local or Remote Alarm 8, 9 9 450 500 550 ms toff2(horn) Local or Remote Alarm 8, 9 9 1350 1500 1650 ms * Limits over the operating temperature range are based on characterization data. Characteristics are production tested at +25°C only. Typical values are at +25°C and are given for circuit design information only. www.allegromicro.com 5 5366 PHOTOELECTRIC SMOKE DETECTOR with INTERCONNECT and TIMER PIN AND CIRCUIT DESCRIPTION (In Typical Application) PIN 1 (C1) A capacitor connected to this pin determines the gain of the photo amplifier during the push-to-test mode and during the chamber monitor test. A typical value for this high-gain mode is 0.047 µF but should be selected based on the photo chamber background reflections reaching the detector and the desired level of sensitivity. Ae ≈ 1+(C1/10) where C1 is in pF. Ae should not exceed 10 000. PIN 2 (C2) A capacitor connected to this pin determines the gain of the photo amplifier during standby. A typical value for this low-gain mode is 4700 pF but should be selected based on a specific photo chamber and the desired level of sensitivity to smoke. Ae ≈ 1+(C2/10) where C2 is in pF. Ae should not exceed 10 000. This gain increases by a nominal 10% after a local alarm is detected (three consecutive detections). Coupling of other signals to C2 (C1 and the DETECT inputs also) must be minimized. A resistor must be installed in series with C2. PIN 3 (DETECT) This is the input to the photo amplifier and is connected to the cathode of the photo diode. The photo diode is operated at zero bias and should have low darkleakage current and low capacitance. PIN 4 (STROBE) This output provides a strobed, regulated voltage of VDD – 5 V. The minus side of all internal and external photo amplifier circuitry is referenced to this pin. PIN 5 (VDD) This pin is connected to the most-positive supply potential and can range from 6 V to 12 V with respect to VSS. PIN 6 (IRED) This output provides a pulsed base current for the external npn transistor, which drives the IR emitter. Its beta should be greater than 100. The IRED output is not active, to minimize noise impact, when the horn and visible LED outputs are active. PIN 7 (I/O) A connection at this pin allows multiple smoke detectors to be interconnected. If a local smoke condition occurs, this pin is driven high. As an input, this pin is sampled nominally every 1.35 seconds during standby. Any local-alarm condition causes this pin to be ignored as an input. An internal nmos device acts as a charge dump to aid in applications involving a large (distributed) capacitance. The charge dump is activated at the end of local or test alarm. This pin also has an on-chip pull-down resistor and must be left unconnected if not used. In application, there is a series current-limiting resistor to other smoke alarms. PIN 8 (HORN1) PIN 9 (HORN2) PIN 10 (FEEDBACK) These three pins are used in conjunction with external passive components and a self-resonating piezoelectric transducer. HORN1 is connected to the piezo metal support electrode; the complementary output, HORN2, is connected to the ceramic electrode and the FEEDBACK input to the feedback electrode. A continuous modulated tone indicates either a local or remote alarm condition. A short (10 ms) chirp indicates a low-battery condition or degraded chamber sensitivity. The low-battery chirp occurs almost simultaneous with the visible LED flash. If the FEEDBACK pin is not used, it must be connected to VDD or VSS. Continued... 6 115 Northeast Cutoff, Box 15036 Worcester, Massachusetts 01615-0036 (508) 853-5000 5366 PHOTOELECTRIC SMOKE DETECTOR with INTERCONNECT and TIMER PIN AND CIRCUIT DESCRIPTION, continued PIN 11 (LED) This open-drain NMOS output is used to directly drive a visible LED. The load for the low-battery test is applied to this output. The low-battery test does not occur coincident with any other test or alarm signal. The LED also indicates detector status as follows (with component values as in the typical application, all times nominal): Standby Local Smoke Remote Alarm Test Mode Timer Mode - Pulses every 43 seconds. - Pulses every 0.67 second. - No pulses. - Pulses every 0.67 second. - Pulses every 10 seconds. PIN 12 (OSC. CAP.) A capacitor between this pin and VDD, along with a parallel resistor, forms part of a two-terminal oscillator and sets the internal clock low time. With component values as shown, this nominal time is 11 ms and essentially the oscillator period. cycle, IRED pulses every 336 ms (nominal) and amplifier gain is increased by internal selection of C1. Background reflections in the smoke chamber can be used to simulate a smoke condition. After the third IRED pulse, a successful test (three consecutive simulated smoke conditions) activates the horn drivers and the I/O pin. When the push-button is released, the input returns to VSS due to the internal pull down. After one oscillator cycle, the amplifier gain returns to normal and after three additional IRED pulses (less than one second), the device exits this mode and returns to standby. This high-to-low transition on pin 16 also resets and starts the 10 minute hush timer (timer mode). Pin Name Pin No. Configuration I/O 7 Disabled as an output. A logic high on this pin places the photo amplifier output on pin 1 or pin 2 as determined by pin 15. The amplifier output appears as pulses. HUSH 15 If the I/O pin is high, this pin controls the amplifier gain capaci tor. If pin 15 is low, normal gain is selected and the amplifier output is on pin 1. If pin 15 is high, supervisory gain is selected and the amplifier output is on pin 2. PIN 13 (TIMING RES.) A resistor between this pin and OSC. CAP. (pin 12) is part of the two-terminal oscillator and sets the internal clock high time, which is also the IRED pulse width. With component values as shown, this nominal time is 105 µs. PIN 14 (VSS) This pin is connected to the most negative supply potential (usually ground). PIN 15 (HUSH) This input pin serves two purposes in normal operation. It serves as an enable for the internal 10-minute (nominal) timer and also as the reference for the smoke comparator during the timer mode. This reference is established by a resistive divider between VDD and STROBE (RX1 and RX2). This allows the detector to have a different sensitivity set point during the timer mode. If the timer mode is not used, this pin can be left open or connected to VSS, which disables this mode. PIN 16 (TEST) This pin has an internal pull-down device and is used to manually invoke two test modes and a Timer Mode. The Push-to-Test Mode is initiated by a high logic level on this pin (usually the depression of a normally open push-button switch to VDD). After one oscillator www.allegromicro.com FEEDBACK 10 If pin 7 is high and pin 15 is low (normal gain), taking this pin to a high logic level increases the amplifier gain by ~10% (hysteresis). OSC. CAP. 12 This pin may be driven by an external clock source. Driving this pin low and high drives the internal clock low and high. The external RC network may remain intact. 7 5366 PHOTOELECTRIC SMOKE DETECTOR with INTERCONNECT and TIMER PIN AND CIRCUIT DESCRIPTION, continued The Diagnostic Test Mode is initiated by pulling this pin below VSS and continuously sourcing 100 µA from the pin for at least one clock cycle on the OSC. CAP. pin. This mode is used to facilitate calibration and test of the IC and the assembled detector. In this mode, certain device pins are reconfigured as described below. In this mode, the IRED pulse rate is increased to one every OSC. CAP. cycle and the STROBE pin is always active. To exit this mode, the test pin is floated for at least one OSC. CAP. cycle. Pin Name Pin No. Configuration HORN1 8 This pin is reconfigured as the smoke integrator output. Three consecutive smoke detections will cause this pin to go high and three consecutive nosmoke detections cause this pin to go low. LED 11 This pin becomes a low-battery indicator. The open-drain NMOS output is normally OFF. If VDD falls below the lowbattery threshold, the output turns ON. TYPICAL APPLICATION CONNECT FOR TIMER MODE OR "HUSH" OPERATION 15 + 5 1kΩ 6 + 13 100kΩ 12 V DD LOGIC 11 1000pF 100µF 22Ω 7 220Ω 220kΩ 10 HORN DRIVER 9 100kΩ 8 TO/FROM OTHER UNITS OSC. & TIMING 4 14 10MΩ 200kΩ SMOKE CHAMBER 8 VSS 3 9V 330Ω 2 22µF 16 1500pF RX2 1 560Ω 4.7kΩ C2 CONNECT FOR NON-TIMER MODE OPERATION PUSH TO TEST C1 5kΩ RX1 8.2kΩ VDD Dwg. EC-006 115 Northeast Cutoff, Box 15036 Worcester, Massachusetts 01615-0036 (508) 853-5000 5366 PHOTOELECTRIC SMOKE DETECTOR with INTERCONNECT and TIMER STANDBY TIMING DIAGRAM (not to scale) OSC. CAP (PIN 12) t osc INTERNAL CLOCK t ired IRED (PIN 6) t w(ired) STROBE (PIN 4) t w(st) t st t led LED (PIN 11) t w(led) SAMPLE SMOKE WARNING CHIRP HORN ENABLE t horn t w(horn) NO LOW SUPPLY CHAMBER SENSITIVITY NORMAL LOW SUPPLY OR DEGRADED SENSITIVITY WARNING CHIRPS ARE OFFSET Dwg. WC-008 www.allegromicro.com 9 5366 PHOTOELECTRIC SMOKE DETECTOR with INTERCONNECT and TIMER LOCAL ALARM TIMING DIAGRAM (not to scale) t w(ired) 90% t f(ired) 10% t ired3 10% t ired4 t ired6 t st4 t st6 IRED (PIN 6) t st3 t w(st) t w(led) t led1 STROBE (PIN 4) t led6 LED (PIN 11) (NO PULSES) I/O (PIN 7) (AS OUTPUT) (AS INPUT) t on(horn) t off(horn) t r(io) (AS OUTPUT) t on(horn) t off(horn) HORN ENABLE LOCAL SMOKE (REMOTE SMOKE = DON'T CARE) NO SMOKE REMOTE SMOKE (NO LOCAL SMOKE) TEST 3RD STROBE WITHOUT SMOKE 3RD STROBE WITH SMOKE 10 115 Northeast Cutoff, Box 15036 Worcester, Massachusetts 01615-0036 (508) 853-5000 Dwg. WC-009 5366 PHOTOELECTRIC SMOKE DETECTOR with INTERCONNECT and TIMER Dimensions in Inches (controlling dimensions) 0.014 0.008 9 16 0.430 MAX 0.280 0.240 0.300 BSC 1 0.070 0.045 0.100 0.775 0.735 8 0.005 BSC MIN 0.210 MAX 0.015 0.150 0.115 MIN 0.022 0.014 Dwg. MA-001-16A in Dimensions in Millimeters (for reference only) 0.355 0.204 9 16 10.92 MAX 7.11 6.10 7.62 BSC 1 1.77 1.15 2.54 19.68 18.67 8 0.13 BSC MIN 5.33 MAX 0.39 3.81 2.93 MIN 0.558 0.356 NOTES: 1. 2. 3. 4. Dwg. MA-001-16A mm Lead thickness is measured at seating plane or below. Lead spacing tolerance is non-cumulative. Exact body and lead configuration at vendor’s option within limits shown. Supplied in sticks/tubes of 25 devices. www.allegromicro.com 11 5366 PHOTOELECTRIC SMOKE DETECTOR with INTERCONNECT and TIMER SAFETY & SECURITY ICs Part Number A5347CA A5348CA A5349CA A5350CA A5354CA A5355CA A5358CA A5364CA A5366CA A5367CA A5368CA Function Ionization-type smoke detector with interconnect and timer Ionization-type smoke detector with interconnect, timer, and reverse-battery protection Ionization-type smoke detector with interconnect and timer for ac line operation Ionization-type smoke detector with interconnect and reverse-battery protection Ionization-type smoke detector with interconnect and reverse-battery protection Ionization-type smoke detector with interconnect Photoelectric-type smoke detector with interconnect and timer Ionization-type smoke detector with interconnect, reverse-battery protection, and temporal horn pattern Photoelectric-type smoke detector with interconnect, timer, and temporal horn pattern Ionization-type smoke detector with interconnect, timer, reverse-battery protection, and temporal horn pattern Ionization-type smoke detector with interconnect, timer, reverse-battery protection, and temporal horn pattern The products described here are manufactured under one or more U.S. patents or U.S. patents pending. Allegro MicroSystems, Inc. reserves the right to make, from time to time, such departures from the detail specifications as may be required to permit improvements in the performance, reliability, or manufacturability of its products. Before placing an order, the user is cautioned to verify that the information being relied upon is current. Allegro products are not authorized for use as critical components in life-support devices or systems without express written approval. The information included herein is believed to be accurate and reliable. However, Allegro MicroSystems, Inc. assumes no responsibility for its use; nor for any infringement of patents or other rights of third parties which may result from its use. 12 115 Northeast Cutoff, Box 15036 Worcester, Massachusetts 01615-0036 (508) 853-5000