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| FUJITSU SEMICONDUCTOR DATA SHEET DS04-27406-5E ASSP For Power Supply Applications BIPOLAR Power Voltage Monitoring IC with Watchdog Timer MB3793-30A DESCRIPTION The MB3793 is an integrated circuit to monitor power voltage; it incorporates a watchdog timer. A reset signal is output when the power is cut or falls abruptly. When the power recovers normally after resetting, a power-on reset signal is output to microprocessor units (MPUs). An internal watchdog timer with two inputs for system operation diagnosis can provide a fall-safe function for various application systems. There is also a mask option that can detect voltages of 4.9 V to 2.4 V in 0.1-V steps. FEATURES * * * * * * * Precise detection of power voltage fall: 2.5% Detection voltage with hysteresis Low power dispersion: ICC = 31 A (reference) Internal dual-input watchdog timer Watchdog-timer halt function (by inhibition pin) Independently-set watchdog and reset times Three types of packages (SOP-8pin : 2 types, SSOP-8pin : 1 type) APPLICATION * Arcade Amusement etc. Copyright(c)2003-2006 FUJITSU LIMITED All rights reserved MB3793-30A PIN ASSIGNMENTS (TOP VIEW) 1 2 3 4 8 7 6 5 CK1 CK2 INH VCC RESET CTW CTP GND (FPT-8P-M01) (FPT-8P-M02) (FPT-8P-M03) PIN DESCRIPTION Pin no. 1 2 3 4 Symbol RESET CTW CTP GND Descriptions Outputs reset pin Watchdog timer monitor time setting pin Power-on reset hold time setting pin Ground pin Pin no. 5 6 7 8 Symbol VCC INH CK2 CK1 Descriptions Power supply pin Inhibit pin Inputs clock 2 pin Inputs clock 1 pin 2 MB3793-30A BLOCK DIAGRAM To VCC of all blocks . I1 = 3 A . I2 . . 30 A = 5 VCC CTP 3 . R1 = . 360 k RESET 1 Output circuit Logic circuit INH 6 Comp.S CTW 2 Pulse generator 1 CK1 8 . VREF = 1.24 V . R2 . . = 240 k To GND of all blocks Watchdog timer Reference voltage generator - + VS Pulse generator 2 CK2 7 4 GND 3 MB3793-30A BLOCK DESCRIPTION 1. Comp. S Comp. S is a comparator with hysteresis to compare the reference voltage with a voltage (VS) that is the result of dividing the power voltage (VCC) by resistors 1 and 2. When VS falls below 1.24 V, a reset signal is output. This function enables the MB3793 to detect an abnormality when the power is cut or falls abruptly. 2. Output circuit The output circuit contains a RESET output control comparator that compares the voltage at the CTP pin to the threshold voltage to release the RESET output if the CTP pin voltage exceeds the threshold value. Since the reset (RESET) output buffer has CMOS organization, no pull-up resistor is needed. 3. Pulse generator The pulse generator generates pulses when the voltage at the CK1 and CK2 clock pins changes to High from Low level (positive-edge trigger) and exceeds the threshold voltage; it sends the clock signal to the watchdog timer. 4. Watchdog timer The watchdog timer can monitor two clock pulses. Short-circuit the CK1 and CK2 clock pins to monitor a single clock pulse. 5. Inhibition pin The inhibition (INH) pin forces the watchdog timer on/off. When this pin is High level, the watchdog timer is stopped. 6. Logic circuit The logic circuit contains flip-flops. Flip-flop RSFF1 controls the charging and discharging of the power-on reset hold time setting capacitor (CTP). Flip-flop RSFF2 turns on/off the circuit that accelerates charging of the power-on reset hold time setting capacitor (CTP) at a reset. The RSFF2 operates only at a reset; it does not operate at a power-on reset when the power is turned on. 4 MB3793-30A ABSOLUTE MAXIMUM RATINGS Parameter Power supply voltage* CK1 Input voltage* CK2 INH Reset output voltage* RESET Reset output current Power dissipation Storage temperature Symbol VCC VCK1 VCK2 IINH VOL VOH IOL IOH PD Tstg Conditions Ta +85 C -0.3 -10 -55 -0.3 Rating Min -0.3 Max +7 VCC + 0.3 ( +7) VCC + 0.3 ( +7) +10 200 +125 Unit V V V mA mW C * : The voltage is based on the ground voltage (0 V). WARNING: Semiconductor devices can be permanently damaged by application of stress (voltage, current, temperature, etc.) in excess of absolute maximum ratings. Do not exceed these ratings. RECOMMENDED OPERATING CONDITIONS Parameter Power supply voltage Reset (RESET) output current Power-on reset hold time setting capacity Watchdog-timer monitoring time setting capacity* Operating ambient temperature Symbol VCC IOL IOH CTP CTW Ta Conditions Value Min 1.2 0 -5 0.001 0.001 -40 Typ 3.3 -- -- 0.1 0.01 +25 Max 6.0 +5 0 10 1 +85 Unit V mA F F C * : The watchdog timer monitor time range depends on the rating of the setting capacitor. WARNING: The recommended operating conditions are required in order to ensure the normal operation of the semiconductor device. All of the device's electrical characteristics are warranted when the device is operated within these ranges. Always use semiconductor devices within their recommended operating condition ranges. Operation outside these ranges may adversely affect reliability and could result in device failure. No warranty is made with respect to uses, operating conditions, or combinations not represented on the data sheet. Users considering application outside the listed conditions are advised to contact their FUJITSU representatives beforehand. 5 MB3793-30A ELECTRICAL CHARACTERISTICS 1. DC Characteristics Parameter Power supply current Symbol ICC VSL Detection voltage VSH Detection voltage hysteresis difference Clock-input threshold voltage Clock-input hysteresis Inhibition-input voltage Input current (CK1, CK2, INH) Reset output voltage Reset-output minimum power voltage VSHYS VCIH VCIL VCHYS VIIH VIIL IIH IIL VOH VOL VCCL VCK = 5 V VCK = 0 V IRESET = -3 mA IRESET = +3 mA IRESET = +50 A VCC rising VSH - VSL CK rising CK falling Conditions After exit from reset VCC falling Ta = +25 C Ta = -40 C to +85 C Ta = +25 C Ta = -40 C to +85 C (VCC = +3.3 V, Ta = +25 C) Value Unit Min Typ Max 2.93 (2.89)* 3.00 (2.96)* 30 (0.7)* 0.5 (0.1)* 2.2 0 -1.0 2.8 31 3.00 3.00 3.07 3.07 70 1.3 1.0 0.3 0 0 3.10 0.12 0.8 45 3.07 (3.11)* 3.14 (3.18)* 110 1.9 (1.5)* (0.6)* VCC 0.8 1.0 0.4 1.2 A V V mV V V V V A A V V V * : The values enclosed in parentheses ( ) are setting assurance values. 2. AC Characteristics Parameter Power-on reset hold time Watchdog timer monitor time Watchdog timer reset time Clock input pulse width Clock input pulse cycle Reset (RESET) output transition Rising time Falling Symbol tPR tWD tWR tCKW tCKT tr* tf* Conditions CTP = 0.1 F CTW = 0.01 F, CTP = 0.1 F CTP = 0.1 F CL = 50 pF CL = 50 pF (VCC = +3.3 V, Ta = +25 C) Value Unit Typ Max 75 16 5.5 120 24 9 500 500 ms ms ms ns s ns ns Min 30 8 2 500 20 * : The voltage range is 10% to 90% at testing the reset output transition time. 6 MB3793-30A DIAGRAM 1. Basic operation (Positive clock pulse) VSH VSL VCC tCKW CK1 tCKT CK2 INH Vth CTP VH CTW VL RESET tPR tWD tWR tPR (1) (2) (3) (4)(5) (5) (6) (7) (8) (9) (10) (11) (12) (13) 7 MB3793-30A 2. Basic operation (Negative clock pulse) VSH VSL VCC tCKW CK1 tCKT CK2 INH Vth CTP VH CTW VL RESET tPR tWD tWR tPR (1) (2) (3) (4)(5) (5) (6) (7) (8) (9) (10) (11) (12) (13) 8 MB3793-30A 3. Single-clock input monitoring (Positive clock pulse) tCKW CK1 CK2 tCKT Vth CTP VH CTW VL RESET tWD tWR Note : The MB3793 can monitor only one clock. The MB3793 checks the clock signal at every other input pulse. Therefore, set watchdog timer monitor time tWD to the time that allows the MB3793 to monitor the period twice as long as the input clock pulse. 9 MB3793-30A 4. Inhibition operation (Positive clock pulse) VSH VSL VCC tCKW CK1 tCKT CK2 INH Vth CTP VH CTW VL RESET tPR tWD tWR tPR (1) (2) (3) (4)(5) (5) (6) (7) (11) (8) (9) (10) (12) (13) 10 MB3793-30A 5. Clock pulse input supplementation (Positive clock pulse) tCKT tCKW *1 CK1 CK2 *2 VH CTW VL Note : The MB3793 watchdog timer monitors Clock1 (CK1) and Clock2 (CK2) pulses alternately. When a CK2 pulse is detected after detecting a CK1 pulse, the monitoring time setting capacity (CTW) switches to charging from discharging. When two consecutive pulses occur on one side of this alternation before switching, the second pulse is ignored. In the above figure, pulse *1 and *2 are ignored. 11 MB3793-30A OPERATION SEQUENCE 1. Positive clock pulse input Refer to "1. Basic operation (positive clock pulse)" under " DIAGRAM." 2. Negative clock pulse input Refer to "2. Basic operation (negative clock pulse)" under " DIAGRAM." The MB3793 operates in the same way whether it inputs positive or negative pulses. 3. Clock monitoring To use the MB3793 while monitoring only one clock, connect clock pins CK1 and CK2. Although the MB3793 operates basically in the same way as when monitoring two clocks, it monitors the clock signal at every other input pulse. Refer to "3. Single-clock input monitoring (positive clock pulse)" under " DIAGRAM." 4. Description of Operations The numbers given to the following items correspond to numbers (1) to (13) used in " DIAGRAM." (1) The MB3793 outputs a reset signal when the supply voltage (VCC) reaches about 0.8 V (VCCL) (2) If VCC reaches or exceeds the rise-time detected voltage VSH, the MB3793 starts charging the power-on reset hold time setting capacitor CTP At this time, the output remains in a reset state. The VSH value is . 3.07 V (Typ) . (3) When CTP has been charged for a certain period of time TPR (until the CTP pin voltage exceeds the threshold voltage (Vth) after the start of charging), the MB3793 cancels the reset (setting the RESET pin to "H" level from "L" level). The Vth value is about 2.4 V with VCC = 3.3 V The power-on reset hold time tPR is set with the following equation: tPR (ms) . . A x CTP (F) = The value of A is about 750 with VCC = 3.3 V. The MB3793 also starts charging the watchdog timer monitor time setting capacitor (CTW). (4) When the voltage at the watchdog timer monitor time setting pin CTW reaches the "H" level threshold voltage VH, the CTW switches from the charge state to the discharge state. The value of VH is always about 1.24 V regardless of the detected voltage. (5) If the CK2 pin inputs a clock pulse (positive edge trigger) when the CTW is being discharged in the CK1-CK2 order or simultaneously, the CTW switches from the discharge state to the charge state. The MB3793 repeats operations (4) and (5) as long as the CK1/CK2 pin inputs clock pulses with the system logic circuit operating normally. (6) If no clock pulse is fed to the CK1 or CK2 pin within the watchdog timer monitor time tWD due to some problem with the system logic circuit, the CTW pin is set to the "L" level threshold voltage VL or less and the MB3793 outputs a reset signal (setting the RESET pin to "L" level from "H" level). The value of VL is always about 0.24 V regardless of the detected voltage. The watchdog timer monitor time tWD is set with the following equation: tWD (ms) . . B x CTW (F) = The value of B is hardly affected by the power supply voltage; it is about 1600 with VCC = 3.3 V. (Continued) 12 MB3793-30A (Continued) (7) When a certain period of time tWR has passed (until the CTP pin voltage reaches or exceeds Vth again after recharging the CTP), the MB3793 cancels the reset signal and starts operating the watchdog timer. The watchdog timer monitor reset time tWR is set with the following equation: tWR (ms) . . D x CTP (F) = The value of D is 55 with VCC = 3.3 V. The MB3793 repeats operations (4) and (5) as long as the CK1/CK2 pin inputs clock pulses. If no clock pulse is input, the MB3793 repeats operations (6) and (7). (8) If VCC is lowered to the fall-time detected voltage (VSL) or less, the CTP pin voltage decreases and the MB3793 outputs a reset signal (setting the RESET pin to "L" level from "H" level). The value of VSL is 3.0 V (Typ) . (9) When VCC reaches or exceeds VSH again, the MB3793 starts charging the CTP . (10) When the CTP pin voltage reaches or exceeds Vth, the MB3793 cancels the reset and restarts operating the watchdog timer. It repeats operations (4) and (5) as long as the CK1/CK2 pin inputs clock pulses. (11) Making the inhibit pin active (setting the INH pin to "H" from "L") forces the watchdog timer to stop operation. This stops only the watchdog timer, leaving the MB3793 monitoring VCC (operations (8) to (10)). The watchdog timer remains inactive unless the inhibit input is canceled. The inhibition (INH) pin must be connecting a voltage of more low impedance, to evade of the noise. (12) Canceling the inhibit input (setting the INH pin to "L" from "H") restarts the watchdog timer. (13) The reset signal is output when the power supply is turned off to set VCC to VSL or less. 1. Equation of time-setting capacitances (CTP and CTW) and set time . tPR [ms] = A x CTP [F] . . tWD [ms] = B x CTW [F] . . tWR [ms] = D x CTP [F] . Values of A, B, C, and D A 750 1300 B 1600 1500 C 0 0 D 55 100 Remark VCC = 3.3 V VCC = 5.0 V 2. Example (when CTP = 0.1 F and CTW = 0.01 F) Symbol time (ms) tPR tWD tWR VCC = 3.3 V 75 16 5.5 VCC = 5.0 V 130 15 10 13 MB3793-30A TYPICAL CHARACTERISTICS Power supply current vs. Power supply voltage 50 45 3.12 Detection voltage vs. Operating ambient temperature Watchdog timer monitoring (VINH = 0 V) 3.10 Power supply current ICC (A) Detection voltage VSH, VSL (V) 40 35 30 25 20 15 10 5 0 0 1 2 3 4 5 6 7 8 3.08 VSH 3.06 Watchdog timer stopping (VINH = VCC) 3.04 3.02 3.00 VSL 2.98 f = 1 kHz Duty = 10 % CK1 = CK2 2.96 Power supply voltage VCC (V) Reset output voltage vs. Reset output current (P-MOS side) 3.3 at VCC = 3.3 V 3.2 -40 Operating ambient temperature Ta ( C) -20 0 +20 +40 +60 +80 +100 +120 Reset output voltage vs. Reset output current (N-MOS side) 600 at VCC = 3.3 V Ta = +85 C Reset output voltage VRESET (V) 3.1 3.0 2.9 2.8 2.7 2.6 Ta = +85 C 2.5 2.4 2.3 0 Ta = +25 C Ta = -40 C Reset output voltage VRESET (mV) 500 Ta = +25 C 400 300 Ta = -40 C 200 100 0 -1 -2 -3 -4 -5 -6 -7 -8 -9 -10 0 1 2 3 4 5 6 7 8 9 10 Reset output current IRESET (mA) Reset output current IRESET (mA) Note : Without writing the value clearly, VCC = 3.3 (V), CTP = 0.1 (F), CTW = 0.01 (F). (Continued) 14 MB3793-30A Reset output voltage vs. Power supply voltage 7 Power-on reset hold time vs. Operating ambient temperature (When VCC rising) 200 Pull-up resistance 100 k at VCC = 3.3 V 180 Reset output voltage VRESET (V) Power-on reset hold time tPR (ms) 6 160 140 120 100 80 60 40 20 0 -40 -20 5 4 3 2 Ta = +85 C Ta = +25 C 1 Ta = -40 C 0 0 1 2 3 4 5 6 7 0 +20 +40 +60 +80 +100 +120 Power supply voltage VCC (V) Operating ambient temperature Ta ( C) Watchdog timer reset time vs. Operating ambient temperature (When monitoring) 26 Watchdog timer monitoring time vs. Operating ambient temperature 26 at VCC = 3.3 V 24 at VCC = 3.3 V 24 Watchdog timer monitoring time tWD (ms) -20 0 +20 +40 +60 +80 +100 +120 Watchdog timer reset time tWR (ms) 22 20 18 16 14 12 10 8 6 4 2 0 -40 22 20 18 16 14 12 10 8 6 4 2 0 -40 -20 0 +20 +40 +60 +80 +100 +120 Operating ambient temperature Ta ( C) Operating ambient temperature Ta ( C) (Continued) 15 MB3793-30A (Continued) Power-on reset hold time vs. CTP capacitance Watchdog timer reset time tWR (ms) Power-on reset hold time tPR (ms) Watchdog timer reset time vs. CTP capacitance 104 103 Ta = -40 C 102 101 Ta = +25 C 1 10 -1 10-4 Ta = +85 C 103 102 Ta = -40 C 101 1 Ta = +25 C 10-1 10-2 10-4 Ta = +85 C 10-3 10-2 10-1 1 101 102 10-3 10-2 10-1 1 101 102 Power-on reset hold time setting capacitance CTP (F) Power-on reset hold time setting capacitance CTP (F) Watchdog timer monitoring time vs. CTW capacitance Watchdog timer monitoring time tWD (ms) 103 102 Ta = -40 C Ta = +25 C 101 1 10-1 Ta = +85 C 10-5 10-4 10-3 10-2 10-1 1 101 Watchdog timer monitoring time setting capacitance CTW (F) 16 MB3793-30A APPLICATION EXAMPLE 1. (1) Supply voltage monitor and watchdog timer (1-clock monitor) VCC 5 VCC 2 CTW RESET 1 MB3793 RESET CTW* CTP* 3 CTP CK1 8 VCC Microprocessor CK 6 INH GND 4 CK2 7 GND GND * : Use a capacitor with less leakage current. The MB3793 monitors the clock (CK1, CK2) at every other input pulse. (2) Supply voltage monitor and watching timer (2-clock monitor) VCC 5 VCC 2 CTW RESET 1 RESET VCC RESET VCC MB3793 CTW* CTP* 3 CTP CK1 8 Microprocessor 1 Microprocessor 2 CK GND CK GND 6 INH GND 4 CK2 7 GND * : Use a capacitor with less leakage current. 17 MB3793-30A 2. Supply voltage monitor and watchdog timer stop VCC 6 INH 5 VCC RESET 1 RESET VCC RESET VCC MB3793 2 CTW CTW* CTP* 3 CTP GND 4 GND CK2 7 CK1 8 Microprocessor 1 Microprocessor 2 CK HALT GND CK GND HALT * : Use a capacitor with less leakage current. NOTES ON USE * Take account of common impedance when designing the earth line on a printed wiring board. * Take measures against static electricity. - For semiconductors, use antistatic or conductive containers. - When storing or carrying a printed circuit board after chip mounting, put it in a conductive bag or container. - The work table, tools and measuring instruments must be grounded. - The worker must put on a grounding device containing 250 k to 1 M resistors in series. * Do not apply a negative voltage. - Applying a negative voltage of -0.3 V or less to an LSI may generate a parasitic transistor, resulting in malfunction. 18 MB3793-30A ORDERING INFORMATION Part number MB3793-30APF- MB3793-30APNF- MB3793-30APFV- MB3793-30APF-E1 MB3793-30APNF-E1 MB3793-30APFV-E1 Package 8-pin Plastic SOP (FPT-8P-M01) 8-pin Plastic SOP (FPT-8P-M02) 8-pin Plastic SSOP (FPT-8P-M03) 8-pin Plastic SOP (FPT-8P-M01) 8-pin Plastic SOP (FPT-8P-M02) 8-pin Plastic SSOP (FPT-8P-M03) Marking 3793AN 3793AN 93AN 3793AN 3793AN 93AN Remarks conventional version conventional version conventional version Lead Free version Lead Free version Lead Free version RoHS Compliance Information of Lead (Pb) Free version The LSI products of Fujitsu with "E1" are compliant with RoHS Directive , and has observed the standard of lead, cadmium, mercury, Hexavalent chromium, polybrominated biphenyls (PBB) , and polybrominated diphenyl ethers (PBDE) . The product that conforms to this standard is added "E1" at the end of the part number. 19 MB3793-30A MARKING FORMAT (Lead Free version) Lead Free version 3793AN E1XXXX XXX SOP-8 (FPT-8P-M01) INDEX Lead Free version 3793AN XXXX E1 XXX SOP-8 (FPT-8P-M02) Lead Free version 93AN 1 XXX XXX SSOP-8 (FPT-8P-M03) INDEX 20 MB3793-30A LABELING SAMPLE (Lead free version) lead-free mark JEITA logo JEDEC logo MB123456P - 789 - GE1 (3N) 1MB123456P-789-GE1 1000 G Pb (3N)2 1561190005 107210 QC PASS PCS 1,000 MB123456P - 789 - GE1 2006/03/01 ASSEMBLED IN JAPAN 1/1 MB123456P - 789 - GE1 0605 - Z01A 1000 1561190005 Lead Free version 21 MB3793-30A MB3793-30APF-E1, MB3793-30APNF-E1, MB3793-30APFV- Recommended Conditions of Moisture Sensitivity Level Item Mounting Method Mounting times Before opening Storage period From opening to the 2nd reflow When the storage period after opening was exceeded Storage conditions Condition IR (infrared reflow) , Manual soldering (partial heating method) 2 times Please use it within two years after Manufacture. Less than 8 days Please processes within 8 days after baking (125 C, 24h) 5 C to 30 C, 70%RH or less (the lowest possible humidity) [Temperature Profile for FJ Standard IR Reflow] (1) IR (infrared reflow) H rank : 260 C Max. 260 C 255 C 170 C to 190 C RT (b) (c) (d) (e) (a) (d') (a) Temperature Increase gradient (b) Preliminary heating (c) Temperature Increase gradient (d) Actual heating (d') (e) Cooling : Average 1 C/s to 4 C/s : Temperature 170 C to 190 C, 60s to 180s : Average 1 C/s to 4 C/s : Temperature 260 C MAX; 255 C or more, 10s or less : Temperature 230 C or more, 40s or less or Temperature 225 C or more, 60s or less or Temperature 220 C or more, 80s or less : Natural cooling or forced cooling Note : Temperature : the top of the package body (2) Manual soldering (partial heating method) Conditions : Temperature 400 C MAX Times : 5 s max/pin 22 MB3793-30A PACKAGE DIMENSIONS 8-pin plastic SOP Lead pitch Package width x package length Lead shape Sealing method Mounting height Weight 1.27 mm 5.3 x 6.35 mm Gullwing Plastic mold 2.25 mm MAX 0.10 g P-SOP8-5.3x6.35-1.27 (FPT-8P-M01) Code (Reference) 8-pin plastic SOP (FPT-8P-M01) *1 6.35 -0.20 .250 -.008 8 +0.25 +.010 Note 1) *1 : These dimensions include resin protrusion. Note 2) *2 : These dimensions do not include resin protrusion. Note 3) Pins width and pins thickness include plating thickness. Note 4) Pins width do not include tie bar cutting remainder. 0.17 -0.04 .007 -.002 +0.03 +.001 5 INDEX *2 5.300.30 7.800.40 (.209.012) (.307.016) Details of "A" part 2.00 -0.15 +0.25 +.010 .079 -.006 1 4 (Mounting height) "A" 0.13(.005) 0.25(.010) 0~8 1.27(.050) 0.470.08 (.019.003) M 0.500.20 (.020.008) 0.600.15 (.024.006) 0.10 -0.05 +0.10 +.004 .004 -.002 (Stand off) 0.10(.004) C 2002 FUJITSU LIMITED F08002S-c-6-7 Dimensions in mm (inches). Note: The values in parentheses are reference values. (Continued) 23 MB3793-30A 8-pin plastic SOP Lead pitch Package width x package length Lead shape Sealing method Mounting height Weight 1.27 mm 3.9 x 5.05 mm Gullwing Plastic mold 1.75 mm MAX 0.06 g (FPT-8P-M02) 8-pin plastic SOP (FPT-8P-M02) Note 1) *1 : These dimensions include resin protrusion. Note 2) *2 : These dimensions do not include resin protrusion. Note 3) Pins width and pins thickness include plating thickness. Note 4) Pins width do not include tie bar cutting remainder. +.010 *1 5.05 -0.20 .199 -.008 8 +0.25 0.22 -0.07 .009 -.003 5 +0.03 +.001 *2 3.900.30 6.000.40 (.154.012) (.236.016) Details of "A" part 45 1.550.20 (Mounting height) (.061.008) 0.25(.010) 0.40(.016) 1 4 "A" 0~8 1.27(.050) 0.440.08 (.017.003) 0.13(.005) M 0.500.20 (.020.008) 0.600.15 (.024.006) 0.150.10 (.006.004) (Stand off) 0.10(.004) C 2002 FUJITSU LIMITED F08004S-c-4-7 Dimensions in mm (inches). Note: The values in parentheses are reference values. (Continued) 24 MB3793-30A (Continued) 8-pin plastic SSOP Lead pitch Package width x package length Lead shape Sealing method Mounting height Weight 0.80 mm 4.2 x 3.5 mm Gullwing Plastic mold 1.45 mm MAX 0.04 g P-SSOP8-4.2x3.5-0.80 (FPT-8P-M03) Code (Reference) 8-pin plastic SSOP (FPT-8P-M03) *1 3.500.10(.138.004) 8 5 Note 1) *1 : Resin protrusion. (Each side : +0.15 (.006) Max). Note 2) *2 : These dimensions do not include resin protrusion. Note 3) Pins width and pins thickness include plating thickness. Note 4) Pins width do not include tie bar cutting remainder. 0.17 -0.04 .007 -.002 +0.03 +.001 *2 4.200.10 INDEX 6.200.20 (.165.004) (.244.008) Details of "A" part 1.25 -0.10 +0.20 +.008 .049 -.004 (Mounting height) 0.25(.010) "A" 1 4 0~8 0.80(.031) 0.370.08 (.015.003) 0.10(.004) M 0.500.20 (.020.008) 0.600.15 (.024.006) 0.100.10 (.004.004) (Stand off) 0.10(.004) C 2002 FUJITSU LIMITED F08005S-c-3-5 Dimensions in mm (inches). Note: The values in parentheses are reference values. 25 MB3793-30A FUJITSU LIMITED All Rights Reserved. The contents of this document are subject to change without notice. Customers are advised to consult with FUJITSU sales representatives before ordering. The information, such as descriptions of function and application circuit examples, in this document are presented solely for the purpose of reference to show examples of operations and uses of Fujitsu semiconductor device; Fujitsu does not warrant proper operation of the device with respect to use based on such information. When you develop equipment incorporating the device based on such information, you must assume any responsibility arising out of such use of the information. Fujitsu assumes no liability for any damages whatsoever arising out of the use of the information. Any information in this document, including descriptions of function and schematic diagrams, shall not be construed as license of the use or exercise of any intellectual property right, such as patent right or copyright, or any other right of Fujitsu or any third party or does Fujitsu warrant non-infringement of any third-party's intellectual property right or other right by using such information. Fujitsu assumes no liability for any infringement of the intellectual property rights or other rights of third parties which would result from the use of information contained herein. The products described in this document are designed, developed and manufactured as contemplated for general use, including without limitation, ordinary industrial use, general office use, personal use, and household use, but are not designed, developed and manufactured as contemplated (1) for use accompanying fatal risks or dangers that, unless extremely high safety is secured, could have a serious effect to the public, and could lead directly to death, personal injury, severe physical damage or other loss (i.e., nuclear reaction control in nuclear facility, aircraft flight control, air traffic control, mass transport control, medical life support system, missile launch control in weapon system), or (2) for use requiring extremely high reliability (i.e., submersible repeater and artificial satellite). Please note that Fujitsu will not be liable against you and/or any third party for any claims or damages arising in connection with above-mentioned uses of the products. Any semiconductor devices have an inherent chance of failure. You must protect against injury, damage or loss from such failures by incorporating safety design measures into your facility and equipment such as redundancy, fire protection, and prevention of over-current levels and other abnormal operating conditions. If any products described in this document represent goods or technologies subject to certain restrictions on export under the Foreign Exchange and Foreign Trade Law of Japan, the prior authorization by Japanese government will be required for export of those products from Japan. Edited Business Promotion Dept. F0605 |
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