MN13811-RTA

Microcomputer Peripheral LSIs MN1380 Series CMOS LSIs for Voltage Detection Overview The MN1380 series are elements that monitor the power supply voltage supplied to microcomputers and other LSI systems and issue reset signals for initializing the system after the power is first applied or for preventing runaway operation when the supply voltage fluctuates. There is a choice of three output types: CMOS output, N-channel open drain output, and inverted CMOS output. There are also three package types: M, TO-92, and a mini type for surface mounting. Choose the ideal element for your application from the series' wide selection of detection ranks (17 ranks between 2.0 and 4.9 volts), output types, and package types. Pin Assignment 23 MN1380 - R 3 2 1 M type package Features Three-pin element requiring no adjustment Wide selection of detection ranks (17 ranks between 2.0 and 4.9 volts) Highly precise detection voltage Detection voltage with hysteresis characteristic ∆VD = 50 mV for ranks C to K ∆VD = 100 mV for ranks L to U Low current consumption: IDD = 1µA (typ.) for VDD =5V Low fluctuation in detection voltage with temperature (typ. 1 mV/˚C) Wide selection of output types: CMOS output, Nchannel open drain output, and inverted CMOS output Wide selection of package types: M, TO-92, and a mini type for surface mounting. 1381 23R 1 2 3 TO-92 type package 2 LCR Applications Battery checkers Power outage detectors Level discriminators Memory backup systems Microcomputer reset circuits Reset circuits for other electronic circuits Mini type package 1 3 1=OUT 2=VDD 3=VSS 1 MN1380 Series MN1380 Series Naming Conventions Microcomputer Peripheral LSIs The MN1380 series offers a wide selection of detection ranks, output types, package types, and packaging. All combinations use the following naming conventions. When ordering, be sure to give the correct part number using these naming conventions. MN13801–R (TA) Winding direction for tape packaging (TA) ...... Tape packaging for TO-92 type package (TX) ...... Embossed tape packing for mini type package (TW) ..... Embossed tape packing for mini type package For further details, see the package specifications. Detection voltage rank (C to U) Output type: Blank ········ CMOS output 1 ················ N-channel open drain output 2 ················ inverted CMOS output Package: 0 ················ M type package 1 ················ TO-92 type package 2 ················ Mini type package Matsushita Electronics Corporation MN1380 series of voltage detection CMOS LSIs with low current consumptions (Example) MN13821–R (TW) Embossed tape packaging R rank (detection voltage of 4.0 to 4.3 V) N-channel open drain output Mini type package MN1380 series of voltage detection CMOS LSIs with low current consumption Minimum Packaging Unit Bulk (M and TO-92 types) ·············· 1,000 Magazine (Mini type) ······················ 50 Taping (Mini and TO-92 types) ······· 3,000 2 Microcomputer Peripheral LSIs Series Lineup Output CMOS output Inverted CMOS output Package M type Package MN1380 MN13801 MN13802 TO-92 type Package MN1381 MN13811 MN13812 MN1380 Series Mini type Package MN1382 MN13821 MN13822 N-channel open drain output Detection Ranks (on Voltage) Rank C D E F G H J K L M N P Q R S T U Detection Voltage for Drop in Power Supply Voltage (VDL) min 2.0 2.1 2.2 2.3 2.4 2.5 2.6 2.8 3.0 3.2 3.4 3.6 3.8 4.0 4.2 4.4 4.6 max 2.2 2.3 2.4 2.5 2.6 2.7 2.9 3.1 3.3 3.5 3.7 3.9 4.1 4.3 4.5 4.7 4.9 Unit Detection Voltage Hysteresis Width (∆VD) min max Unit V 50 300 mV V 50 300 mV V 100 300 mV 3 MN1380 Series Block Diagram Microcomputer Peripheral LSIs 2 Voltage Reference 1 VDD + Comparator – Level Converter *1 Output Circuit 1 OUT + Voltage Reference 2 Comparator – 3 VSS Note *1: Circuits vary slightly depending on the output type (CMOS output, N-channel open drain output, or inverted CMOS output) Pin Descriptions Pin No. 1 2 3 Symbol OUT VDD VSS Function Description Reset signal output pin Power supply pin Ground pin 4 Microcomputer Peripheral LSIs Absolute Maximum Ratings Parameter Power supply voltage Output voltage Operating ambient temperature Storage temperature VSS=0V, Ta=25˚C MN1380 Series Symbol VDD VO Ta Tstg VSS=0V, Ta=25˚C Rating 7.0 – 0.3 to VDD +0.3 –20 to +70 –55 to +125 Unit V V ˚C ˚C Recommended Operating Conditions Parameter Power supply voltage Symbol VDD Conditions See Figures 1 and 4. min 1.5 typ max 6.0 Unit V Electrical Characteristics 1) DC Characteristics VSS=0V, Ta=–20˚C to +70˚C Parameter Power supply current Detection voltage for drop in power supply voltage *2 Detection voltage hysteresis width *2 "H" level output voltage Symbol Conditions IDD VDD = 5 V *1 Load resistance = 10 kW VDL ∆VD VOH *2 min typ 1 max 5 *2 Unit µA V mV Ta=25˚C See Figures 1 and 4. CMOS output Inverted IOH=– 40µA VDD=1.8V VDD=1.8V IOL=0.7mA VDD=6.0V VSS 0.6 *2 *2 0.8VDD 0.8 VSS VDD VDD –1.5 0.4 V V CMOS output IOH=– 0.5mA "L" level output voltage VOL N-channel open drain output Inverted CMOS output IOH=0.3mA Notes *1: This includes the output pin's leakage current. *2: For particulars, see the detection voltage rank table. 5 MN1380 Series Electrical Characteristics (continued) 2) AC Characteristics Parameter VSS=0V, Ta=25˚C Microcomputer Peripheral LSIs Symbol Conditions Rank C D E F G See H J K L M N P Q R S T C D E F G See H J K L M N P Q R S T MN1380 MN1381 MN1382 Allowable Value (typ) MN13801 MN13802 MN13811 MN13812 MN13821 MN13822 Unit 3.0 2.5 230.0 Reset release time tOH Figures 2 and 3. 3.0 3.0 100.0 µs 2.0 4.0 30.0 250.0 160.0 3.0 Reset time tOL Figures 2 and 3. 115.0 100.0 3.0 µs 15.0 35.0 3.0 6 Microcomputer Peripheral LSIs Description of Operation MN1380 Series VDD VDH VDL 1.5V 0V t VOUT CMOS output, N-channel open drain output MN1380/1381/1382 MN13801/13811/13821 tOH tOH tOL 0V Inverted CMOS output Figure MN13802/13812/13822 tOL t VOUT tOL tOL tOH 0V tOH t Figure 1. Description of Operation Notes 1: Output cannot be specified for power supply voltages under 1.5 V because operation is not guaranteed for that range. 2: VDL: Detection voltage for drop in power supply voltage VDH: Detection voltage for rise in power supply voltage tOL : Time lag between the time that the power supply voltage reaches the detection voltage (VDL or VDH) and the time that the output pin (OUT) goes to "L" level. tOH : Time lag between the time that the power supply voltage reaches the detection voltage (VDL or VDH) and the time that the output pin (OUT) goes to "H" level. 3: These characteristics for the N-channel open drain output are when a load resistor is connected between the OUT and VDD pins. 7 MN1380 Series Description for Measuring the Output Characteristics Microcomputer Peripheral LSIs VDD 6.0V 1.6V 0V 6.0V CMOS output, N-channel open drain output MN1380/1381/1382 MN13801/13811/13821 tOH tOL t 1.5V 1.0V 0V t Inverted CMOS output MN13802/13812/13822 6.0V 1.6V 1.5V 1.0V tOH tOH 0V t Figure 2. Description chart of Measuring the Output Characteristics 100kΩ Switch: Connect when measuring N-channel open drain output (MN13801/MN13811/MN13821) VDD MN1380 Series 100pF VOUT Figure 3. Circuit for Measuring the Output Characteristics 8 Microcomputer Peripheral LSIs Description for Measuring the I/O Characteristics MN1380 Series VOUT CMOS output, N-channel open drain output MN1380/1381/1382 MN13801/13811/13821 ∆VD Operation indeterminate 0 0 VOUT Inverted CMOS output MN13802/13812/13822 1.5V VDL VDH VDD ∆VD 0 0 Operation indeterminate 1.5V VDL VDH VDD Figure 4. Description chart for Measuring the I/O Characteristics Notes 1: Output cannot be specified for power supply voltages under 1.5 V because operation is not guaranteed for that range. 2: VDL: Detection voltage for drop in power supply voltage VDH: Detection voltage for rise in power supply voltage 3: These characteristics for the N-channel open drain output are when a load resistor is connected between the OUT and VDD pins. 9 MN1380 Series Application Circuit Example Microcomputer Peripheral LSIs Connect resistors, capacitors, and the like only to the output pin on the MN1380 series element. Note that connecting them to the Power source pins changes VDH, VDL, and ∆VD. Sample Circuit 1 Sample Circuit 2 VDD OUT MN1380 Series C VDD R MN1380 Series C OUT Select the values of R and C to match the application. 10 Microcomputer Peripheral LSIs Package Dimensions (Unit:mm) M type package MN1380 Series 6.9±0.2 1.5 1.5 2.5±0.2 1.0 0.4 1.0 0.85 2.5±0.5 2.5±0.5 0.55±0.10 0.45±0.10 1.25 1.25 1 2 3 1.25 2.5 4.1±0.2 0.7R 4.5±0.2 11 MN1380 Series Package Dimensions (continued)(Unit:mm) TO-92 type package Microcomputer Peripheral LSIs 5.0±0.2 4.0±0.2 0.45 -0.1 +0.2 2.54 123 13.5±0.5 5.1±0.2 2.3±0.2 12 Microcomputer Peripheral LSIs Package Dimensions (continued)(Unit:mm) Mini type package MN1380 Series 2.9 -0.05 0.4 -0.05 2 +0.10 +0.20 1.5 -0.05 +0.25 1 0.95 3 0.65±0.15 0.95 1.9±0.2 2.8 -0.3 0.4±0.2 0.16 -0.05 1.1 -0.1 +0.10 0.3 0.8 +0.2 +0.2 0.1 13 MN1380 Series Reference Characteristics Microcomputer Peripheral LSIs The following characteristics curves represent results from a specific sample therefore they do not guarantee the characteristics for the final product. 1.4 1.2 1.0 VSS OUT IDD(µA ) 0.8 VDD 0.6 0.4 0.2 0 A V 0 1.0 2.0 3.0 4.0 VDD(V) 5.0 6.0 7.0 Figure 5.a. IDD vs. VDD Characteristic (Rank Q) Figure 5.b. Measurement Circuit 2.0 1.5 IDD(µA ) VSS OUT VDD A 1.0 5V 0.5 –40 –20 0 20 40 60 80 Ambient temperature, Ta (˚C) Figure 6.a. IDD Temperature Characteristic (Rank Q) Figure 6.b. Measurement Circuit 14 Microcomputer Peripheral LSIs Reference Characteristics (continued) MN1380 Series 4.8 4.6 4.4 4.2 VSS VDH OUT VDL,VDH(V) VDD V 4.0 VDL 3.8 V 3.6 3.4 –40 –20 0 20 40 60 80 Temperature Ta(˚C) Figure 7.a. VDL/VDH Temperature Characteristic (Rank Q) Figure 7.b. Measurement Circuit 0.3 0.25 VSS 0.2 VDD OUT ∆VD(V) 0.15 V 0.1 V 0.05 0 –40 –20 0 20 40 60 80 Ambient temperature, Ta (˚C) Figure 8.a. ∆VD Temperature Characteristic (Rank Q) Figure 8.b. Measurement Circuit 15 MN1380 Series Reference Characteristics (continued) Microcomputer Peripheral LSIs 3 –30˚C Room temperature 80˚C 2 VSS OUT VDD IOL(mA) A 1 1.8V V 0 0 0.5 1.0 1.5 VOL(V) 2.0 2.5 3.0 Figure 9.a. IOL vs. VOL Characteristic Figure 9.b. Measurement Circuit 20 –30˚C Room temperature 15 80˚C VSS OUT | IOH | (mA) 10 VDD A 5V 5 V 0 0 1 2 3 VOL(V) 4 5 Figure 10.a. IOH vs. VOH Characteristic Figure 10.b. Measurement Circuit 16 Microcomputer Peripheral LSIs Reference Characteristics (continued) MN1380 Series 2.5 2.0 VSS 1.5 OUT IOL(mA) VDD 1.0 1.8V A V 0.5 0 –40 –20 0 20 40 60 Ambient temperature, Ta (˚C) 80 Figure 11.a. IOL vs. Temperature Characteristic Figure 11.b. Measurement Circuit 7.0 6.5 VSS OUT | IOH | (mA) 6.0 VDD 5.5 5V A V 5.0 4.5 –40 –20 0 20 40 60 80 Ambient temperature, Ta (˚C) Figure 12.a. IOH vs. Temperature Characteristic Figure 12.b. Measurement Circuit 17 MN1380 Series Microcomputer Peripheral LSIs TO-92 Type Package Taping-Specifications (MN1381/MN13811/MN13812) A1 P1 P ∆h1 0 ∆h2 T A H l1 H1 H0 W2 W0 d F1 F2 Drawing direction P0 øD0 Figure 13. TO-92 Type Package Taping-Dimensions (Ammunition pack) TO-92 Type Package Taping Dimensions (Ammunition pack) Name Product height* Product width* Product thickness* Lead width* Taped lead length Product pitch Feed hole pitch Feed hole position Lead spacing Product deflection angle Symbol A A1 T d l1 P P0 P1 F1, F2 ∆h1, ∆h2 W Length (mm) 5.3 max 5.2 max 4.2 max 0.45 +0.15 – 0.1 2.0 max 12.7±1.0 12.7±0.3 6.35±0.5 2.5 +0.5 – 0.2 2.0 max 18.0 +1.0 – 0.5 Name Adhesive tape width Feed hole position Adhesive tape position Distance to top of product W t2 Symbol W0 W1 W2 H H0 H1 D0 t1 t2 t1 Length (mm) 6.0±0.5 9.0±0.5 0.5 max 25.0 max 19.0±0.5 16.0±0.5 4.0±0.2 0.7±0.2 1.5 max Distance to bottom of product Lead clinch height Feed hole diameter Tape thickness Total tape thickness Tape width Note*1: For further details, see the specifications issued separately. 25 elements (example) W 330 H 250 D 41 Unit: mm Leave the space for at least three elements H E W B D Figure 14. Box Dimensions for TO-92 Type Packages with Ammunition pack 18 Microcomputer Peripheral LSIs MN1380 Series Embossed Taping Specifications for Mini Type Package (MN1382/MN13821/MN13822) There is a choice of two orientations, TW and TX, for the product relative to the tape. TW Tape feed hole Drawing direction TX Tape feed hole Drawing direction (Marking surface on top) (Marking surface on top) Figure 15. TW Orientation Figure 16. TX Orientation 1.75±0.1 Unit: mm ø1.5 +0.1 -0 4.0±0.1 1.75±0.1 t+0.3±0.1 8.0±0.3 3.5±0.05 A B 4.0±0.1 3.2±0.1 Product orientation A is labeled TW; orientation B, TX. Figure 17. Embossed Taping Dimensions for Mini Type Package 3.3±0.1 Unit: mm ø21±0.8 2±0.5 10±1.5 ø178±2.0 ø13±0.5 ø80±1.0 Figure 18. Embossed Taping Reel Dimensions for Mini Type Package 19 2± 0.5 3,000 packages per reel MN1380 Series Reliability Testing Results for MN1380 Series Microcomputer Peripheral LSIs (1) M type package (MN1380/MN13801/MN13802) and TO-92 type package (MN1381/MN13811/MN13812) Test Subjects Operating lifetime test High-temperature storage test Low-temperature storage test High-temperature, high-humidity storage test High-temperature, high-humidity bias test Thermal shock test Temperature cycle test Pressure cooker test Soldering test Solder heat resistance test Test Subjects Operating lifetime test High-temperature storage test Low-temperature storage test High-temperature, high-humidity storage test High-temperature, high-humidity bias test Thermal shock test Temperature cycle test Pressure cooker test *1 Soldering test Solder heat resistance test *1 Ta=150˚C and –65˚C. Five minutes at each temperature for ten cycles Ta=150˚C and –65˚C. Thirty minutes at each temperature for ten cycles Two atmospheres for 24 hours at ambient temperature (Ta) of 121˚C Test Conditions VDD=5.5V, Ta=125˚C, t=1000hrs Ta=150˚C, t=1000hrs Ta=–65˚C, t=1000hrs Ta=85˚C, RH=85%, t=1000hrs VDD=5.5V, Ta=85˚C, RH=85%, t=1000hrs Ta=150˚C and –65˚C. Five minutes at each temperature for ten cycles Ta=150˚C and –65˚C. Thirty minutes at each temperature for ten cycles Two atmospheres for 50 hours at ambient temperature (Ta) of 121˚C Results 0/15 0/15 0/15 0/15 0/15 0/15 0/15 0/15 0/15 0/15 Results 0/15 0/15 0/15 0/15 0/15 0/15 0/15 0/15 0/15 0/15 Ambient temperature (Ta) of 230˚C for five seconds Ambient temperature (Ta) of 270˚C for ten seconds Test Conditions VDD=5.5V, Ta=125˚C, t=1000hrs Ta=150˚C, t=1000hrs Ta=–65˚C, t=1000hrs Ta=85˚C, RH=85%, t=1000hrs VDD=5.5V, Ta=85˚C, RH=85%, t=1000hrs (2) Mini type package (MN1382/MN13821/MN13822) Ambient temperature (Ta) of 230˚C for five seconds Ambient temperature (Ta) of 260˚C for five seconds Note*1: Note that the testing conditions for the mini package differ from those for the other two packages. 20