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A5366CA

A5366CA

  • 厂商:

    ALLEGRO(埃戈罗)

  • 封装:

    DIP16_300MIL

  • 描述:

    IC SMOKE DETECTOR PHOTO 16DIP

  • 数据手册
  • 价格&库存
A5366CA 数据手册
A5366 Photoelectric Smoke Detector with Interconnect and Timer Features and Benefits Description ▪ Low average standby current for long battery life ▪ Interconnect up to 50 detectors ▪ Piezoelectric horn driver ▪ Low battery detection (all internal) ▪ Chamber sensitivity test and alarm ▪ Power-on reset (POR) ▪ Internal timer and control for reduced sensitivity mode ▪ Built-in circuits to reduce false triggering ▪ 6 to 12 V operating range ▪ ESD protection circuitry on all pins ▪ Temporal Horn Pattern, per UL217, NFPA72, and ISO8201 ▪ UL Recognized for UL217 or UL268 applications The A5366 is a low-current BiCMOS circuit providing all of the required features for a photoelectric type smoke detector. This device can be used with an infrared photoelectric chamber to sense scattered light from smoke particles. A networking capability allows as many as 50 units to be interconnected so that if any unit senses smoke all units will sound an alarm. Special features are incorporated in the design to facilitate calibration and testing of the finished detector. The device is recognized by Underwriters Laboratories for use in smoke alarms that comply with Standard UL217, or UL268, per file #S2113. A variable-gain photoamplifier can be directly interfaced to an infrared emitter-detector pair. The amplifier gain levels are determined by two external capacitors and are 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 approximately 10% to reduce false triggering. High gain is used during pushbutton test and to periodically monitor the chamber sensitivity during standby. Packages: 16-pin DIP (Package A) The internal oscillator and timing circuitry keep standby power to a minimum by sensing for smoke for only 100 μs every 10 s. A special three-stage–speedup sensing scheme is incorporated to minimize the time to an audible alarm and also to reduce false triggering. Chamber sensitivity is periodically monitored and two consecutive cycles of degraded sensitivity are required for a warning signal (chirp) to occur. 16-pin SOICW (Package LW) The A5366 is supplied in a 16-pin dual in-line plastic package (suffix A), and for surface mount, a 16-pin SOICW (suffix LW). The lead (Pb) free versions (suffix –T) have 100% mattetin leadframe plating. The devices are rated for continuous operation over the temperature range of –25°C to 75°C. Not to scale Typical Application Diagram VDD 0.047 μF Rx1 8.2 kΩ 5 kΩ A Rx2 1 2 4.7 kΩ 560 Ω 4700 pF 200 kΩ 9V C1 C2 3 DETECT 4 STROBE 5 VDD A5366 TEST 16 Push-to-Test HUSH VSS TIMING RES 1 kΩ 6 Smoke Chamber 7 22 Ω 100 μF To / from other units 26110.11-DS, Rev. G 8 220 Ω IRED I/O HORN1 22 μF OSC CAP LED 15 14 Red LED B 1500 pF A 10 MΩ 13 100 kΩ 12 330 Ω 220 kΩ C 1000 pF C 1.5 MΩ C B Connect HUSH to VSS to disable timer mode C Value of component can vary, based on the piezoelectric horn used 11 10 FEEDBACK HORN2 9 Connect to allow timer mode ("hush") operation Piezo Horn Photoelectric Smoke Detector with Interconnect and Timer A5366 Selection Guide Part Number A5366CA A5366CA-T A5366CLWTR-T Pb-free – Yes Yes Package 16-pin DIP through hole 16-pin DIP through hole 16-pin SOICW surface mount Packing 25 pieces / tube 25 pieces / tube 1000 pieces / reel Absolute Maximum Ratings* Rating Units Supply Voltage Range Characteristic Symbol VDD Referenced to VSS –0.5 to 15 V Input Voltage Range VIN Referenced to VSS –0.3 to VDD+0.3 V Input Current IIN 10 mA Operating Ambient Temperature Range Maximum Junction Temperature Storage Temperature Range Notes TA –25 to 75 ºC TJ(max) 150 ºC Tstg –55 to 125 ºC *CAUTION: BiCMOS devices have input static protection but are susceptible to damage if exposed to extremely high static electrical charges. Thermal Characteristics Characteristic Package Thermal Resistance Symbol RθJA Test Conditions* Value Units Package A, on 4-layer PCB based on JEDEC standard 38 ºC/W Package LW, on 4-layer PCB based on JEDEC standard 48 ºC/W *Additional thermal information available on Allegro website. Terminal List Table Number Name Pin-out Diagrams 1 C1 Sets photoamplifier gain in supervisory mode Package A 2 C2 Sets photoamplifier gain in standby mode 3 DETECT Photoamplifier input 4 STROBE Strobed supply (VDD – 5 V) for photoamplifier low-side reference 12 OSC CAP 5 VDD Positive supply voltage 11 LED 6 IRED Output to smoke chamber IR LED driver 10 FEEDBACK 7 I/O 8 HORN1 Output for driving piezoelectric horn 9 HORN2 Complementary output for driving piezoelectric horn 10 FEEDBACK 11 LED C1 1 16 TEST C2 2 15 HUSH DETECT 3 14 VSS STROBE 4 13 TIMING RES VDD 5 IRED 6 I/O 7 9 HORN2 HORN1 8 Package LW C1 1 16 TEST C2 2 Function Input-output to interconnected detectors Input for driving piezoelectric horn Output to drive visible LED 15 HUSH 12 OSC CAP DETECT 3 14 VSS 13 TIMING RES STROBE 4 13 TIMING RES 14 VSS 15 HUSH Input for photoamplifier timer mode reference; can also disable timer mode 16 TEST Enables push-to-test mode and diagnostic test/calibration mode; starts timer mode, if enabled VDD 5 IRED 6 I/O 7 HORN1 8 12 OSC CAP 11 LED 10 FEEDBACK 9 HORN2 Connection for capacitor to set clock frequency Connection for resistor to set clock frequency Negative supply voltage Allegro MicroSystems, LLC 115 Northeast Cutoff Worcester, Massachusetts 01615-0036 U.S.A. 1.508.853.5000; www.allegromicro.com 2 Photoelectric Smoke Detector with Interconnect and Timer A5366 Functional Block Diagram I/O +Supply VDD FEEDBACK VDD Band-gap Reference 9V HORN2 + _ HORN1 Low Battery VDD LED Logic Photoamp + _ DETECT C1 Power-On Reset TIMING RES C2 Oscillator and Timing STROBE VDD VDD OSC CAP VSS IRED –Supply HUSH TEST Allegro MicroSystems, LLC 115 Northeast Cutoff Worcester, Massachusetts 01615-0036 U.S.A. 1.508.853.5000; www.allegromicro.com 3 Photoelectric Smoke Detector with Interconnect and Timer A5366 DC ELECTRICAL CHARACTERISTICS at TA = –25°C to 75°C1. VSS = 0 V, in typical application (unless otherwise noted) Characteristic Supply Voltage Range Operating Supply Current Low-Level Input Voltage High-Level Input Voltage Input Leakage High Symbol Test Conditions VDD IDD Low-Level Output Voltage High-Level Output Voltage Strobe Output Voltage Line Regulation IIN VOL VOH Max. Units 6.0 – 12 V 5 12 – – 9 μA During STROBE on, IRED off, configured per typical application 5 12 – – 2.0 mA During STROBE on, IRED on, configured per typical application 5 12 – – 3.0 mA VIN = VDD, STROBE active, OSC CAP = VDD VIN = VDD VIN = VSS VIN = VDD Input Pull-Down Current Typ.2 – VIH IIL Min. 5 VIN = VST, STROBE active, OSC CAP = VDD Input Leakage Low VDD Average in standby mode, configured per typical application VIL IIH Test Pin No local smoke, VIN = VDD 7 9 – – 1.5 V 10 9 – – 2.7 V 16 9 – – 7.0 V 15 9 – – 0.5 V 7 9 3.2 – – V 10 9 6.3 – – V 16 9 8.5 – – V 15 9 1.6 – – V 1, 2 12 – – 100 nA 3, 10, 12 12 – – 100 nA 1, 2, 3 12 – – –100 nA 10, 12 12 – – –100 nA 15, 16 12 – – –1.0 μA 16, 15 9 0.25 – 10 μA 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 IO = –16 mA 8, 9 6.5 5.5 – – V – – V Inactive, IO = –1 μA 4 12 VDD – 0.1 Active, IO = 100 to 500 μA 4 9 VDD – 5.25 – VDD – 4.75 V Active, VDD = 6 to 12 V 4 – – –60 – dB VDD = 6 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 VST ΔVST(ΔVDD) Strobe Temperature Coefficient αST IRED Output Voltage VIRED Continued on the next page… Allegro MicroSystems, LLC 115 Northeast Cutoff Worcester, Massachusetts 01615-0036 U.S.A. 1.508.853.5000; www.allegromicro.com 4 Photoelectric Smoke Detector with Interconnect and Timer A5366 DC ELECTRICAL CHARACTERISTICS (continued) at TA = –25°C to 75°C1, VSS = 0 V, in typical application (unless otherwise noted) Characteristic Line Regulation Symbol ΔVIRED(ΔVDD) Test Conditions Active, VDD = 6 to 12 V Test Pin VDD 6 Min. Typ.2 Max. Units – –35 – dB VDD = 6 to 12 V 6 – – 0.40 – %/°C High-Level Output Current IOH VDD = Alarm, I/O active,VO = VDD – 2 V 7 9 –4.0 – – mA 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 5 – 6.9 7.2 7.5 V IRED Temperature Coefficient Low-Battery Alarm Threshold Common Mode Voltage Smoke Comparator Reference Voltage 1Limits αIRED VDD(th) VIC Any alarm condition 1, 2, 3 - VDD –4 – VDD –2 V VREF Any alarm condition Internal - VDD – 3.7 – VDD – 3.3 V over the operating temperature range are based on characterization data. Characteristics are production tested at 25°C only. values are at 25°C and are given for circuit design information only. 2Typical AC ELECTRICAL CHARACTERISTICS at TA = –25°C to 75°C1. VSS = 0 V, in typical application (unless otherwise noted) Characteristic Oscillator Period LED Pulse Period LED Pulse Width STROBE Pulse Period STROBE Pulse Width Symbol Test Conditions tosc Test Pin VDD Min. Typ.2 Max. Units 12 9 9.4 10.5 11.5 ms tled1 No local or remote smoke 11 9 39 – 48 s tled3 Local smoke 11 9 0.45 0.50 0.55 s – s s tled4 Remote smoke only 11 9 – No LED Pulses tled6 Pushbutton test, induced alarm 11 9 0.45 0.50 0.55 tled7 Timer mode, no alarm 11 9 9.67 10.75 11.83 s 11 9 9.5 – 11.5 ms tw(led) 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 smoke only 4 9 7.2 8.0 8.9 s tst5 Chamber test or low battery test, no local alarm 4 9 38.9 – 47.1 s tst6 Pushbutton test, induced alarm 4 9 225 252 278 ms 4 9 9.5 – 11.5 ms tw(st) Continued on the next page… Allegro MicroSystems, LLC 115 Northeast Cutoff Worcester, Massachusetts 01615-0036 U.S.A. 1.508.853.5000; www.allegromicro.com 5 Photoelectric Smoke Detector with Interconnect and Timer A5366 AC ELECTRICAL CHARACTERISTICS (continued) at TA = –25°C to 75°C1, VSS = 0 V, in typical application (unless otherwise noted) Characteristic IRED Pulse Period Symbol Test Conditions Test Pin VDD Min. Typ.2 Max. Units 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 smoke only 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, induced alarm 6 9 225 252 278 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 – – 13 × tOSC s Horn Warning Pulse Period thorn Low battery or degraded chamber sensitivity 8, 9 9 38.9 – 47.1 s Horn Warning Pulse Width tw(horn) Low battery or 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 toff1(horn) Local or remote alarm (see Timing Diagrams section) 8, 9 9 450 500 550 ms toff2(horn) Local or remote alarm (see Timing Diagrams section) 8, 9 9 1350 1500 1650 ms Horn Off-Time 1Limits over the operating temperature range are based on characterization data. Characteristics are production tested at 25°C only. values are at 25°C and are given for circuit design information only. 2Typical Allegro MicroSystems, LLC 115 Northeast Cutoff Worcester, Massachusetts 01615-0036 U.S.A. 1.508.853.5000; www.allegromicro.com 6 Photoelectric Smoke Detector with Interconnect and Timer A5366 Pin and Circuit Description (In Typical Application) C1 Pin A capacitor connected to this pin determines the gain, Ae, of the photoamplifier during the push-to-test mode and during the chamber monitor test. A typical capacitor value for this highgain (supervisory) mode is 0.047 μF, but it should be selected based on the photochamber 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 and thus C1 should not exceed 0.1 μF. Coupling of other signals to the C1, C2, and DETECT inputs must be minimized. As an input, the I/O is sampled every fourth clock cycle (nominally 42 ms). When the I/O pin is driven high by another device, three consecutive samples with I/O high plus one additional cycle (nominally 10.5 ms) are required to cause an alarm. If the I/O falls below its threshold at any time during those (nominally) 95 ms, an internal latch is reset and there will not be an alarm. Thus, depending on when during the (nominally) 42 ms sample cycle I/O is initially forced high, the I/O must remain high for a minimum of (nominally) 95 to 137 ms to cause an alarm. This filtering provides significant immunity to I/O noise. C2 Pin A capacitor connected to this pin determines the gain, Ae, of the photoamplifier during standby. A typical capacitor value for this low-gain mode is 4700 pF, but it should be selected based on a specific photochamber and the desired level of sensitivity to smoke. Ae = 1 + (C2 / 10), where C2 is in pF. Ae should not exceed 10,000 and thus C2 should not exceed 0.1 μF. This gain increases by a nominal 10% after a local alarm is detected (three consecutive detections). A resistor must be installed in series with the C2 capacitor. The LED is suppressed when an alarm is signaled from an interconnected unit, and 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 large (distributed) capacitance, and is activated at the end of a local or test alarm. This pin has an on-chip pull-down device and must be left unconnected if not used. In the application, there should be a series current-limiting resistor to other smoke alarms. DETECT Pin This is the input to the photoamplifier and is connected to the cathode of the photodiode. The photodiode is operated at zero bias and should have low dark leakage current and low capacitance. A shunt resistor must be installed in parallel with the photodiode. STROBE Pin This output provides a strobed, regulated voltage of VDD – 5 V. The minus side of all internal and external photoamplifier circuitry is referenced to this pin. VDD Pin This pin is connected to the positive supply potential and can range from 6 to 12 V with respect to VSS. IRED Pin This output provides a pulsed base current for the external NPN transistor, which drives the IR emitter. Its beta should be greater than 100. To minimize noise impact, the IRED output is not active when the horn and visible LED outputs are active. I/O Pin A connection at this pin allows multiple smoke detectors to be interconnected. If any single unit detects smoke, its I/O pin is driven high, and all connected units will sound their associated horns. HORN1, HORN2, FEEDBACK Pins These three pins are used with a self-resonating piezoelectric transducer and horn-starting external passive components. The output HORN1 is connected to the piezo metal support electrode. The complementary output, HORN2, is connected to the ceramic electrode. The FEEDBACK input is connected to the feedback electrode. If the FEEDBACK pin is not used, it must be connected to VSS. LED Pin 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. If an LED is not used, it should be replaced with an equivalent resistor (typically 500 to 1000 Ω) such that the battery loading remains about 10 mA. 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): Condition Pulse Occurrence Standby Every 43 s Local Smoke Every 0.5 s Remote Alarm No pulses Test Mode Every 0.5 s Timer Mode Every 10 s Allegro MicroSystems, LLC 115 Northeast Cutoff Worcester, Massachusetts 01615-0036 U.S.A. 1.508.853.5000; www.allegromicro.com 7 A5366 OSC CAP (Oscillator Capacitor) Pin 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 shown, this nominal time is 10.4 ms and essentially the oscillator period. The internal clock low time can be calculated by: Tlow = 0.693 × ROSCCAP × COSCCAP . TIMING RES (Timing Resistor) Pin A resistor between this pin and OSC CAP is part of the twoterminal oscillator and sets the internal clock high time, which is also the IRED pulse width. With component values shown, this time is nominally 105 μs. The internal clock high time can be calculated by: Thigh = 0.693 × RTIMINGRES × COSCCAP . VSS Pin This pin is connected to the negative supply potential (usually ground). HUSH Pin This input pin has an internal pull-down device and serves two purposes in standby mode. It serves to enable/disable entering the internal 10-minute (nominal) “hush” timer mode, and also as the reference for the smoke comparator during timer mode. When the voltage on this pin is greater than 1.5 V, entering timer mode is enabled, and a high-to-low transition on the TEST pin resets and starts timer mode. If use of timer mode is not desired, this pin can be connected to VSS or left open, and a voltage of less than 0.5 V on the pin will disable timer mode. During timer mode, the smoke comparator reference is established by a resistive divider (Rx1 and Rx2) between the VDD and STROBE pins and allows the detector to operate with reduced sensitivity during timer mode. This allows the user to hush alarms caused by nuisance smoke or steam (such as from cooking). When not in timer mode, the smoke comparator reference is set internally to approximately VDD – 3.5 V. TEST Pin This pin has an internal pull-down device and is used to manually invoke two test modes and timer mode. Push-to-Test mode is initiated by a voltage greater than approximately VDD – 0.5 V on this pin (usually the depression of a normally-open pushbutton switch to VDD). After one oscillator cycle, the amplifier gain is increased by internal selection of C1 so that background reflections in the smoke chamber can be used to simulate a smoke condition, and IRED pulses every 252 ms (nominal). After the third IRED pulse (three consecutive simulated smoke conditions), the successful test activates Photoelectric Smoke Detector with Interconnect and Timer the horn drivers and the I/O pin, and the LED blinks once every 0.5 s. If the test fails, the LED will not blink, the horn will not sound, and the I/O pin will remain low. When the pushbutton 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 TEST also resets and starts the 10-minute (nominal) “hush” timer mode, if the mode is enabled via the HUSH pin. Diagnostic Test/Calibration Mode is available to facilitate calibration and test of the IC and the assembled detector. It is initiated by pulling TEST below VSS by continuously drawing 400 μA from the pin for at least one clock cycle on OSC CAP. The current should not exceed 800 μA and under these conditions, TEST pin voltage will clamp at approximately 250 mV below VSS. One option is to connect TEST to a –5 V supply through a 12 kΩ resistor. In this mode, certain device pins are reconfigured as described in table 1. The IRED pulse rate is Table 1. Alternate Pin Configuration During Diagnostic Test/Calibration Mode Pin Name Alternate Configuration I/O Disabled as an output. A logic high on this pin places the photoamplifier output on C1 or C2 as determined by the HUSH pin. The amplifier output appears as pulses. HUSH If the I/O pin is high, this pin controls the amplifier gain capacitor. If this pin is low, normal gain is selected and the amplifier output is on pin C1. If this pin is high, supervisory gain is selected and the amplifier output is on C2. NOTE: If I/O is low, four rising edges on this pin will cause the device to exit diagnostic/calibration mode and enter an Allegro-defined test mode. FEEDBACK If the I/O pin is high and the HUSH pin is low (normal gain), taking this pin to a high logic level increases the amplifier gain by ≈10% (hysteresis). OSC CAP 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. HORN1 This pin is reconfigured as the smoke integrator output. Three consecutive smoke detections will cause this pin to go high and three consecutive no-smoke detections cause this pin to go low. LED 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. Allegro MicroSystems, LLC 115 Northeast Cutoff Worcester, Massachusetts 01615-0036 U.S.A. 1.508.853.5000; www.allegromicro.com 8 A5366 increased to one pulse every OSC CAP cycle and the STROBE pin is always active. To exit this mode, the TEST pin should be floated, or returned to VSS, for at least one OSC CAP cycle. Alarm Indications Alarm conditions include: local smoke detection, a remote alarm, low battery, or degraded chamber sensitivity. These are indicated by a combination of horn and LED signals, which continue until the alarm condition is resolved. A local alarm always overrides a remote alarm, and a local or remote alarm will inhibit warning signals for low battery or degraded chamber. During a local or a remote alarm condition, the horn output is a continuous modulated tone (temporal horn pattern), nominally: 0.5 s on, 0.5 s off, 0.5 s on, 0.5 s off, 0.5 s on, and 1.5 s off. The visible LED distinguishes a local alarm from a remote alarm. During a local alarm, the LED blinks every 0.5 s (nominally), but during a remote alarm, the LED is disabled and does not blink. Photoelectric Smoke Detector with Interconnect and Timer The degraded-chamber test occurs periodically (nominally every 43 s). During this test, the gain of the photoamplifier is switched to the high (supervisory) level, set by C1. The device expects that the photodiode will receive enough reflected background light in the chamber to cause an alarm condition. If a faulty, dirty, or obstructed chamber prevents this for two consecutive tests, the device signals degraded chamber with one short (nominally 10 ms) horn chirp every 43 s, essentially halfway between LED flashes. The condition is resolved when the chamber is either cleared or cleaned. The low-battery test also occurs periodically (also nominally every 43 s, but offset from the degraded-chamber test). During this test, the load of the LED is applied to the battery, and a resistive divider off VDD is compared to an internal band-gap reference. If VDD is below the threshold, the device signals low battery with one short (nominally 10 ms) horn chirp every 43 s, occurring almost simultaneously with the visible LED flash. The condition is resolved when the battery is replaced. Allegro MicroSystems, LLC 115 Northeast Cutoff Worcester, Massachusetts 01615-0036 U.S.A. 1.508.853.5000; www.allegromicro.com 9 Photoelectric Smoke Detector with Interconnect and Timer A5366 Timing Diagrams (Not to Scale) Standby Mode tr(ired) Test event OSC CAP Pin tf(ired) 90% 50% 10% Internal Clock tw(ired) tosc Photo Sample tst1, tired1 tled1, tst5 Low-Battery Test tst5, tired5 Chamber Test tw(st) STROBE Pin IRED Pin LED off (High-Z) LED Pin LED on tw(led) Low Battery Condition (Low battery) VDD Pin Low-Battery Test Failed “test period” thorn Horn Enable tw(horn) LED Pin LED on LED off (High-Z) Chirps occur at the end of a failed “test period,” and are nearly coincident with LED flashes Degraded Chamber Condition Chamber Sensitivity (Degraded chamber) Chamber Test thorn Horn Enable tw(horn) LED Pin LED on LED off (High-Z) Chirps occur after 2 consecutive failed tests, and are offset from LED flashes and from chirps that indicate failure of low-battery tests Allegro MicroSystems, LLC 115 Northeast Cutoff Worcester, Massachusetts 01615-0036 U.S.A. 1.508.853.5000; www.allegromicro.com 10 Photoelectric Smoke Detector with Interconnect and Timer A5366 Local Smoke Detection Alarm Condition 1st strobe with smoke 3rd strobe with smoke 3rd strobe without smoke IRED Pin tst3, tired3 tst2,t ired2 tst3, tired3 tw(st) STROBE Pin tw(led) tled3 LED Pin LED on LED off (High-Z) toff2(horn) ton(horn) toff1(horn) Horn Enable tdump (Output) I/O Pin I/O Charge Dump Remote Alarm Condition tst4, tired4 tw(st) STROBE Pin LED Pin LED off (High-Z) ton(horn) toff2(horn) toff1(horn) Horn Enable tr(io) (Input) I/O Pin Test Alarm Mode tst6, tired6 tw(st) STROBE Pin tw(led) tled6 LED Pin LED on LED off (High-Z) TEST Pin ton(horn) toff2(horn) toff1(horn) Horn Enable tdump I/O Pin (Output) I/O Charge Dump Allegro MicroSystems, LLC 115 Northeast Cutoff Worcester, Massachusetts 01615-0036 U.S.A. 1.508.853.5000; www.allegromicro.com 11 Photoelectric Smoke Detector with Interconnect and Timer A5366 Package A, 16-Pin DIP 19.05 +0.64 –0.38 0.25 +0.10 –0.05 16 6.35 A 1 +0.76 –0.25 7.62 BSC 10.92 MAX 2 Branded Face 3.30 +1.65 –0.38 SEATING PLANE 0.38 MIN C 5.33 MAX 3.30 +0.51 –0.38 2.54 BSC 0.13 MIN A Terminal #1 mark area For Reference Only; not for tooling use (reference MS-001BB) Dimensions in millimeters Dimensions exclusive of mold flash, gate burrs, and dambar protrusions Exact case and lead configuration at supplier discretion within limits shown +0.25 1.52 –0.38 16X 0.46±0.10 0.25 M C Package LW, 16-Pin SOIC 10.30 ±0.20 8° 0° 16 0.33 0.20 7.50 ±0.10 0.65 16 1.27 2.25 10.30 ±0.33 9.50 A 1.40 REF 1 2 1.27 0.40 1 2 0.25 BSC 16X SEATING PLANE 0.10 C 0.51 0.31 1.27 BSC 2.65 MAX 0.30 0.10 C SEATING PLANE GAUGE PLANE C PCB Layout Reference View For Reference Only; not for tooling use (reference MS-013AA) Dimensions in millimeters Dimensions exclusive of mold flash, gate burrs, and dambar protrusions Exact case and lead configuration at supplier discretion within limits shown A Terminal #1 mark area B Branding scale and appearance at supplier discretion C Reference land pattern layout (reference IPC7351 SOIC127P1030X265-16M); all pads a minimum of 0.20 mm from all adjacent pads; adjust as necessary to meet application process requirements and PCB layout tolerances Allegro MicroSystems, LLC 115 Northeast Cutoff Worcester, Massachusetts 01615-0036 U.S.A. 1.508.853.5000; www.allegromicro.com 12 A5366 Photoelectric Smoke Detector with Interconnect and Timer Allegro MicroSystems offers an industry-leading range of ionization and photoelectric smoke detector ICs. For a current listing, please visit our website at: www.allegromicro.com Copyright ©2009-2013, Allegro MicroSystems, LLC The products described herein are manufactured under one or more of the following U.S. patents: 5,045,920; 5,264,783; 5,442,283; 5,389,889; 5,581,179; 5,517,112; 5,619,137; 5,621,319; 5,650,719; 5,686,894; 5,694,038; 5,729,130; 5,917,320; and other patents pending. Allegro MicroSystems, LLC 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’s products are not to be used in life support devices or systems, if a failure of an Allegro product can reasonably be expected to cause the failure of that life support device or system, or to affect the safety or effectiveness of that device or system. The information included herein is believed to be accurate and reliable. However, Allegro MicroSystems, LLC assumes no responsibility for its use; nor for any infringement of patents or other rights of third parties which may result from its use. For the latest version of this document, visit our website: www.allegromicro.com Allegro MicroSystems, LLC 115 Northeast Cutoff Worcester, Massachusetts 01615-0036 U.S.A. 1.508.853.5000; www.allegromicro.com 13
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