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| A8438 Package EJ: MLP/TDFN, 3 x 3 mm 0.75 mm nominal height Photoflash Capacitor Charger with IGBT Driver FEATURES Power with 1 Li+ or 2 Alkaline/NiMH/NiCAD batteries Adjustable output voltage >75% efficiency Three levels of switch current limit: 1.6, 1.8, 2.0 A Fast charge time Charge complete indication Integrated IGBT driver with trigger No primary-side Schottky diode needed Low-profile package (0.75 mm nominal height) Approximate Scale 1:1 The A8438 is a highly integrated IC that charges photoflash capacitors for digital and film cameras. It also features an integrated IGBT driver that facilitates the flash discharge function and saves board space. To charge the photoflash capacitor, the A8438 integrates a 40 V, DMOS switch that drives the transformer in a flyback topology, allowing optimized design with tight coupling and high efficiency. A proprietary control scheme optimizes the capacitor charging time. Low quiescent current and low shutdown current further improve system efficiency and extend battery life. Three levels of switch current limit are provided: 1.6, 1.8, and 2.0 A. The level is determined by configuring the ILIM pin as grounded, floating, or pulled up to IC supply voltage, respectively. The CHARGE pin enables the A8438 and starts the charging of the output capacitor. When the designated output voltage is reached, the A8438 stops the charging until the CHARGE pin is toggled again. Pulling the CHARGE pin low stops charging. The D pin ONE is an open-drain indicator of when the designated output voltage is reached. The A8438 can be used with two Alkaline/NiMH/ NiCAD or one single-cell Li+ battery connected to the transformer primary. Connect the VIN pin to a 3.0 to 5.5 V supply, which can be either the system rail or the Li+ battery, if used. The A8438 is available in a very low profile (0.75 mm) 10-terminal 3x3 mm MLP/TDFN package, making it ideal for space-constrained applications. It is lead (Pb) free, with 100% matte-tin leadframe plating. A8438-DS, Rev. 1 APPLICATIONS Digital camera flash Film camera flash Cell phone flash Emergency strobe light Two Alkaline/NiMH/NiCAD or one Li+ battery or 1.5 to 5.5 V D1 VBATT VOUT T1 + C1 0.1 F C2 4.7 F VBIAS 3.0 to 5.5 V R1 R2 R5 100 k 2.0 A 1.8 A (N.C.) 1.6 A 10 k R4 COUT VIN ILIM CHARGE DONE TRIGGER GND SW FB A8438 IGBTDRV R3 To IGBT Gate Figure 1. Typical circuit with separate power supply to transformer One Li+ battery VBATT or 3.0 to 5.5 V T1 D1 VOUT R5 100 k 2.0 A 1.8 A (N.C.) 1.6 A 10 k R4 C1 0.1 F C2 4.7 F R1 R2 COUT VIN ILIM CHARGE DONE TRIGGER GND SW FB A8438 IGBTDRV R3 To IGBT Gate Figure 2. Typical circuit with single power supply A8438 Photoflash Capacitor Charger with IGBT Driver Functional Block Diagram SW DCM Comparator CMP3 18 s VIN Control Logic 1.2 V HL Triggered Timer S SET Q Q 40 V DMOS CMP2 ILIM Comparator ILIM ILIM Decoder Adjustable Reference Enable R CLR Q Q Q SET S R FB CMP1 CLR CHARGE DONE VIN TRIGGER One-Shot 1.2 V IGBTDRV GND Terminal List Table Number 1 2 3 4 5 6 7 8 9 10 Name NC IGBTDRV VIN GND CHARGE SW TRIGGER DONE FB ILIM Function No connection IGBT driver gate drive output Power supply input Device ground Charging enable; set to low to power-off the A8438 Switch, internally connected to the DMOS power FET drain Strobe signal input Open drain, when pulled low by internal MOSFET, indicates that charging target level has been reached Output voltage feedback Switch current limit setting; sets three discreet levels Device Pin-out Diagram NC IGBTDRV VIN GND CHARGE 1 2 3 4 5 10 ILIM 9 8 7 6 FB DONE TRIGGER SW Package Thermal Characteristics RJA = 45 C/W, on a 4-layer board. Additional information is available on the Allegro Web site. Absolute Maximum Ratings Input or Output Voltage SW pin, VSW ............................................................ -0.3 to 40 V IGBTDRV pin, VIGBTDRV.............................. -0.3 to VIN + 0.3 V FB pin, VFB ............................................................... -0.3 to VIN All other pins, Vx ...................................................... -0.3 to 7 V Operating Ambient Temperature, TA ................................ -40C to 85C Maximum Junction Temperature, TJ(max) ........................................ 150C Storage Temperature, TS .............................................. -55C to 150C A8438-DS, Rev. 1 Allegro MicroSystems, Inc. 115 Northeast Cutoff, Box 15036 Worcester, Massachusetts 01615-0036 (508) 853-5000 www.allegromicro.com 2 A8438 Photoflash Capacitor Charger with IGBT Driver ELECTRICAL CHARACTERISTICS Typical values at TA = 25C and VIN = 3.3 V (unless otherwise noted) Characteristics Supply Voltage* Supply Current Symbol VIN IIN Charging Charging done Shutdown (VCHARGE = 0 V, VTRIGGER = 0 V) VILIM = 0 V ILIM pin floating VILIM = VIN VIN = 3.3 V, ID = 800 mA, TA = 25C VSW = 35 V VCHARGE = VIN Test Conditions Min. 3 - - - - 1.6 - - - - - 2 - - 32 A into pin DONE VFB = 1.205 V VIN rising - 1.187 - 2.55 - - - - 2 - - - - - Typ. - 5 1 0.01 1.6 1.8 2.0 0.27 0.2 18 - - - - - Max. Units 5.5 - 10 1 - 2.0 - - 1 - 1 - 0.8 1 100 V mA A A A A A A s A V V A mV V nA V mV A V V ns ns ns ns Primary Side Current Limit SW On Resistance SW Leakage Current* SW Maximum Off-Time CHARGE Input Current CHARGE Input Voltage* Output Leakage Current* DONE Output Low Voltage* DONE FB Voltage Threshold* FB Input Current UVLO Enable Threshold UVLO Hysteresis IGBT Driver IGBTDRV On Resistance to VIN IGBTDRV On Resistance to GND TRIGGER Input Current ISWLIM RDS(On)SW ISWLKG tOFF(Max) ICHARGE VCHARGE(H) VCHARGE(L) IDONELKG VDONE(L) VFB IFB VUVLO VUVLOHYS 1.205 1.223 -120 - 2.65 2.75 150 - 5 6 - - - 30 30 70 70 - - 1 - 0.8 - - - - VIN = 3.3 V, VIGBTDRV = 1.5 V RDS(On)I-V RDS(On)I-G VIN = 3.3 V, VIGBTDRV = 1.5 V ITRIGGER VTRIGGER = VIN VTRIGGER(H) TRIGGER Input Voltage* VTRIGGER(L) Propagation Delay, Rising tDr Rgate=12 , CLOAD = 6500 pF, VIN = 3.3 V Rgate=12 , CLOAD = 6500 pF, VIN = 3.3 V Propagation Delay, Falling tDf Output Rise Time tr Rgate=12 , CLOAD = 6500 pF, VIN = 3.3 V Output Fall Time tf Rgate=12 , CLOAD = 6500 pF, VIN = 3.3 V *Guaranteed by design and characterization over operating temperature range, -40C to 85C. A8438-DS, Rev. 1 Allegro MicroSystems, Inc. 115 Northeast Cutoff, Box 15036 Worcester, Massachusetts 01615-0036 (508) 853-5000 www.allegromicro.com 3 A8438 Photoflash Capacitor Charger with IGBT Driver Tests performed using application circuit shown in figure 6 (unless otherwise noted) Performance Characteristics Charging Waveforms: 100 F photoflash capacitor VOUT Symbol C1 C4 t Conditions Parameter VOUT IBATT(Avg) time Parameter VBATT VBIAS COUT Units/Division 50 V 200 mA 1s Value 2.0 V 3.3 V 100 F C4 C1 t IBATT VOUT Symbol C1 C4 t Conditions Parameter VOUT IBATT(Avg) time Parameter VBATT VBIAS COUT Units/Division 50 V 200 mA 1s Value 2.5 V 3.3 V 100 F C4 C1 t IBATT VOUT Symbol C1 C4 t Conditions Parameter VOUT IBATT(Avg) time Parameter VBATT VBIAS COUT Units/Division 50 V 200 mA 1s Value 3.0 V 3.3 V 100 F C4 C1 t IBATT A8438-DS, Rev. 1 Allegro MicroSystems, Inc. 115 Northeast Cutoff, Box 15036 Worcester, Massachusetts 01615-0036 (508) 853-5000 www.allegromicro.com 4 A8438 Photoflash Capacitor Charger with IGBT Driver Tests performed using application circuit shown in figure 6 (unless otherwise noted) Performance Characteristics VOUT Symbol C1 C4 t Conditions Parameter VOUT IBATT(Avg) time Parameter VBATT VBIAS COUT Units/Division 50 V 200 mA 1s Value 3.6 V 3.3 V 100 F C4 C1 t IBATT VOUT Symbol C1 C4 t Conditions Parameter VOUT IBATT(Avg) time Parameter VBATT VBIAS COUT Units/Division 50 V 200 mA 1s Value 4.5 V 3.3 V 100 F C4 C1 IBATT t VOUT Symbol C1 C4 t Conditions Parameter VOUT IBATT(Avg) time Parameter VBATT VBIAS COUT Units/Division 50 V 200 mA 1s Value 5.0 V 3.3 V 100 F C4 C1 t IBATT A8438-DS, Rev. 1 Allegro MicroSystems, Inc. 115 Northeast Cutoff, Box 15036 Worcester, Massachusetts 01615-0036 (508) 853-5000 www.allegromicro.com 5 A8438 Photoflash Capacitor Charger with IGBT Driver Tests performed using application circuit shown in figure 6 (unless otherwise noted) Performance Characteristics Charging Waveforms: 140 F photoflash capacitor VOUT Symbol C1 C4 t Conditions Parameter VOUT IBATT(Avg) time Parameter VBATT VBIAS IAVG ILIM COUT Units/Division 50 V 200 mA 1s Value 2.0 V 3.3 V 770 mA 1.8 A 140 F IBATT C4 C1 t VOUT Symbol C1 C4 t Conditions Parameter VOUT IBATT(Avg) time Parameter VBATT VBIAS IAVG ILIM COUT Units/Division 50 V 200 mA 1s Value 2.0 V 3.3 V 820 mA 2.0 A 140 F IBATT C4 C1 t A8438-DS, Rev. 1 Allegro MicroSystems, Inc. 115 Northeast Cutoff, Box 15036 Worcester, Massachusetts 01615-0036 (508) 853-5000 www.allegromicro.com 6 A8438 Photoflash Capacitor Charger with IGBT Driver Performance Characteristics, continued Tests performed using application circuit shown in figure 6 (unless otherwise noted) Charge Time VBIAS = 3.3 V, COUT = 100 F, ILIM = 2 A, VOUT = 300 V Connect VBATT to a separate power supply 6.5 5.5 90 Efficiency TA = 25C VBATT = 3.0 V, VIN = 5.0 V Charge Time (s) 80 VBATT = VIN = 5.0 V Efficiency (%) 4.5 3.5 2.5 1.5 2.0 2.5 3.0 3.5 4.0 VBATT (V) 4.5 5.0 5.5 70 VBATT = VIN = 3.3 V 60 50 40 100 150 200 VOUT (V) 250 300 IGBT Drive Timing Definition TRIGGER 50% 50% t Dr tr 90% t Df tf 90% 10% IGBTDRV 10% A8438-DS, Rev. 1 Allegro MicroSystems, Inc. 115 Northeast Cutoff, Box 15036 Worcester, Massachusetts 01615-0036 (508) 853-5000 www.allegromicro.com 7 A8438 Photoflash Capacitor Charger with IGBT Driver Performance Characteristics, continued Tests performed using application circuit shown in figure 6 (unless otherwise noted) IGBT Drive Performance Rising Signal tr VIGBTDRV Symbol C2 C3 t Conditions Parameter VIGBTDRV VTRIGGER time Parameter tDr tr CLOAD Rgate Units/Division 1V 1V 50 ns Value 22.881 ns 63.125 ns 6800 pF 12 C2 VTRIGGER C3 t Falling Signal tf Symbol C2 C3 t Conditions Parameter VIGBTDRV VTRIGGER time Parameter tDf tf CLOAD Rgate Units/Division 1V 1V 50 ns Value 27.427 ns 65.529 ns 6800 pF 12 C2 VIGBTDRV C3 VTRIGGER t A8438-DS, Rev. 1 Allegro MicroSystems, Inc. 115 Northeast Cutoff, Box 15036 Worcester, Massachusetts 01615-0036 (508) 853-5000 www.allegromicro.com 8 A8438 Photoflash Capacitor Charger with IGBT Driver Functional Description Overview The A8438 is a photoflash capacitor charger control IC with adjustable input current limiting. It also integrates an IGBT driver for strobe operation of the flash tube, dramatically saving board space in comparison to discrete solutions for strobe flash operation. The control logic is shown in the functional block diagram. The charging operation of the A8438 is started by a low-to-high signal on the CHARGE pin. When a charging cycle is initiated, the transformer primary side current, IPrimary, ramps up linearly at a rate determined by the combined effect of the battery voltage, VBATT , and the primary side inductance, LPrimary. When IPrimary reaches the current limit, ISWLIM , set by configuring the ILIM pin, the internal MOSFET is turned off immediately, allowing the energy to be pushed into the photoflash capacitor, COUT, from the secondary winding. The secondary side current drops linearly as COUT charges. While the internal MOSFET switch is turned off, the output voltage, VOUT, is sensed by a resistor string, R1 through R3, connected between the anode of the output diode, D1, and ground. This resistor string forms a voltage divider that feeds back to the FB pin. The resistors must be sized to achieve a desired output voltage level based on a typical value of 1.205 V at the FB pin. As soon as VOUT reaches the desired value, the charging process is terminated. The user may toggle the CHARGE pin to refresh the photoflash capacitor. Switch On-Time and Off-Time Control The A8438 implements an adaptive on-time/off-time control. (For circuit details, please refer to the the Control Logic block in the simplified Functional Block Diagram on page 2.) On-time duration, tON , is determined by input voltage, VIN, transformer primary inductance, LPrimary, and the set current limit, ISWLIM . Off-time duration, tOFF , depends on the operating conditions during switch off-time. The A8438 applies its two charging modes, Fast Charging mode and Timer mode, according to those conditions. Fast Charging and Timer Modes The IC operates in the Fast Charging mode when the photoflash capacitor, COUT, is only partially discharged. In Fast Charging mode, the converter operates near the discontinuous boundary, Figure 3. Sequencing of Timer mode and Fast Charging mode (time axis scale is 1 s per division) and a sensing circuit tracks the fly-back voltage at the SW node. As soon as this voltage swings below 1.2 V, the internal MOSFET switch is turned on again, starting the next charging cycle. The IC operates in the Timer mode when beginning to charge a completely discharged photoflash capacitor, usually when the output voltage, VOUT, is less than approximately 10 to 20 V. Timer mode is a fixed 18 s off-time control. One advantage of the A8438 watchdog timer control scheme is that it limits the initial current surge and thus acts as a "soft-start." As shown in figure 3, the timer mode only lasts a small fraction of a second (usually < 100 ms). It can be recognized by its lower initial input charging current as a result of a lower duty cycle. As output voltage rises to more than 10 to 20 V, the adaptive Fast Charging mode takes over the control, raising the average input current level. To understand the Timer mode, it is noted that the secondary winding charge current, ISecondary, decreases linearly at a rate of: dISecondary where: dt = VOUT LPrimary N2 (1) ISecondary is the secondary side current, LPrimary is the primary side inductance, and N is the transformer turns ratio (NSecondary / NPrimary). Timer Mode Fast Charging Mode IBATT(Avg) VOUT A8438-DS, Rev. 1 Allegro MicroSystems, Inc. 115 Northeast Cutoff, Box 15036 Worcester, Massachusetts 01615-0036 (508) 853-5000 www.allegromicro.com 9 A8438 Photoflash Capacitor Charger with IGBT Driver When the A8438 charges a fully-discharged photoflash capacitor, ISecondary decreases very slowly due to the low initial VOUT. The A8438 internal timer (Timer mode) sets a maximum timeframe of 18 s for the off-time as long as the SW node voltage is greater than 1.2 V. When the off-time passes 18 s, the internal MOSFET switch is turned on, initiating the next charging cycle . Input Current Limiting The peak input current, ISWLIM , can be set to three levels by configuring the ILIM pin: ISWLIM Setting (A) 1.6 1.8 2.0 Float Pull up to IC supply voltage with a 1 to 10 k resistor ILIM Pin Connection External ground Lower input current offers the advantage of a longer battery lifetime. For faster charging time, however, use the highest current limit. ISWLIM may be adjusted during charging. A8438-DS, Rev. 1 Allegro MicroSystems, Inc. 115 Northeast Cutoff, Box 15036 Worcester, Massachusetts 01615-0036 (508) 853-5000 www.allegromicro.com 10 A8438 Transformer Design Photoflash Capacitor Charger with IGBT Driver Applications Information LPrimary (H), use the following formula: Turns Ratio. The minimum transformer turns ratio, N, (Secondary:Primary) should be chosen based on the following formula: LPrimary 300 x 10-9 x VOUT N x ISWLIM . (3) N where: VOUT (V) is the required output voltage level, VD_Drop (V) is the forward voltage drop of the output diode(s), VBATT (V) is the transformer battery supply, and 40 (V) is the rated voltage for the internal MOSFET switch, representing the maximum allowable reflected voltage from the output to the SW pin. For example, if VBATT is 3.5 V and VD_Drop is 1.7 V (which could be the case when two high voltage diodes were in series), and the desired VOUT is 320 V, then the turns ratio should be at least 8.9. In a worst case, when VBATT is highest and VD_Drop and VOUT are at their maximum tolerance limit, N will be higher. Taking VBATT = 5.5 V, VD_Drop = 2 V, and VOUT = 320 V x 102 % = 326.4 V as the worst case condition, N can be determined to be 9.5. In practice, always choose a turns ratio that is higher than the calculated value to give some safety margin. In the worst case example, a minimum turns ratio of N = 10 is recommended. Primary Inductance. The A8438 has a minimum switch off-time, VOUT + VD_Drop 40 - VBATT (2) Ideally, the charging time is not affected by transformer primary inductance. In practice, however, it is recommended that a primary inductance be chosen between 10 H and 20 H. When LPrimary is less than 10 H, parasitic elements associated with flyback from the transformer lead to lower efficiency and longer charging time. When LPrimary is greater than 20 H, the rating of the transformer must be dramatically increased to handle the required power density, and the series resistances are usually higher. A design that is optimized to achieve a small footprint solution would have an LPrimary of 12 to 14 H, with minimized leakage inductance and secondary capacitance, and minimized primary and secondary series resistance. Please refer to the table Recommended Components for more information. Leakage Inductance and Secondary Capacitance. The trans- tOFF(min) , of 300 ns, to ensure correct SW node voltage sensing. As a loose guideline when choosing the primary inductance, former design should minimize the leakage inductance to ensure the turn-off voltage spike at the SW node does not exceed the 40 V limit. An achievable minimum leakage inductance for this application, however, is usually compromised by an increase in parasitic capacitance. Furthermore, the transformer secondary capacitance should be minimized. Any secondary capacitance is multiplied by N2 when reflected to the primary, leading to high initial current swings when the switch turns on, and to reduced efficiency. VBIAS 3.0 to 5.5 V Two Alkaline/NiMH/NiCAD or one Li + VBATT 1.5 to 5.5 V D1 T1 + C1 0.1 F C2 4.7 F VOUT Symbol C1 C2 D1 T1 Rating 0.1 F, X5R or X7R, 10 V 4.7 F, X5R or X7R, 10 V Fairchild Semiconductor BAV23S (dual diode connected in series) TDK LDT565630T-041, LPrimary = 4.7 H, N = 10.2 1206 Resistor, 1 % 0603 Resistor, 1 % Pull-up resistors R5 100 k 10 k R4 150 k R1 R2 COUT 303 V VIN ILIM CHARGE DONE TRIGGER GND SW FB 150 k A8436 IGBTDRV 1.2 k R3 R1, R2 R3 R4, R5 To IGBT Gate Figure 6. Typical circuit for photoflash application. Configured for ISWLIM of 2.0 A. A8438-DS, Rev. 1 Allegro MicroSystems, Inc. 115 Northeast Cutoff, Box 15036 Worcester, Massachusetts 01615-0036 (508) 853-5000 www.allegromicro.com 11 A8438 Adjusting Output Voltage Photoflash Capacitor Charger with IGBT Driver The A8438 senses output voltage during switch off-time. This allows the voltage divider network, R1 through R3 (see figure 6), to be connected at the anode of the high voltage output diode, D1, eliminating power loss due to the feedback network when charging is complete. The output voltage can be adjusted by selecting proper values of the voltage divider resistors. Use the following equation to calculate values for Rx (): internal MOSFET switch is closed, and the primary-side current starts to ramp-up. It can be calculated as: . VD_ Peak = VOUT + N x V BATT (5) The peak current of the rectifying diode, ID_Peak, is calculated as : R1 + R2 VOUT = -1 . R3 VFB ID_ Peak = IPrimary_Peak / N . Input Capacitor Selection (6) (4) R1 and R2 together need to have a breakdown voltage of at least 300 V. A typical 1206 surface mount resistor has a 150 V breakdown voltage rating. It is recommended that R1 and R2 have similar values to ensure an even voltage stress between them. Recommended values are: R1 = R2 = 150 k (1206) R3 = 1.2 k (0603) which together yield a stop voltage of 303 V. Using higher resistance ratings for R1, R2, and R3 does not offer significant efficiency improvement, because the power loss of the feedback network occurs mainly during switch off-time, and because the off-time is only a small fraction of each charging cycle. Output Diode Selection Ceramic capacitors with X5R or X7R dielectrics are recommended for the input capacitor, C2. It should be rated at least 4.7 F / 6.3 V to decouple the battery input, VBATT , at the primary of the transformer. When using a separate bias, VBIAS , for the A8438 VIN supply, connect at least a 0.1 F / 6.3 V bypass capacitor to the VIN pin. Layout Guidelines Key to a good layout for the photoflash capacitor charger circuit is to keep the parasitics minimized on the power switch loop (transformer primary side) and the rectifier loop (secondary side). Use short, thick traces for connections to the transformer primary and SW pin. Output voltage sensing circuit elements must be kept away from DON switching nodes such as SW pin. It is important that the E signal trace be routed away from the transformer and other switching traces, in order to minimize noise pickup. In addition, high voltage isolation rules must be followed carefully to avoid breakdown failure of the circuit board. Part Number GRM188R71C104KA01D LMK212BJ475KG Source Murata Taiyo Yuden Chemi-Con BAV23S GSD2004S 9C12063A1503FKHFT 9T06031A1201FBHFT ST-532517A LDT565630T-041 T-16-024A Philips Semiconductor, Fairchild Semiconductor Vishay Yageo Yageo Asatech TDK Tokyo Coil Engineering Choose the rectifying diode(s), D1, to have small parasitic capacitance (short reverse recovery time) while satisfying the reverse voltage and forward current requirements. The peak reverse voltage of the diode, VD_Peak , occurs when the Recommended Components Table Component Rating C1 Input Capacitor 0.1 F, 10%, 16 V X7R ceramic capacitor (0603) C2 Input Capacitor 4.7 F, 10%, 10 V, X5R ceramic capacitor (0805) COUT Photoflash 20 to 180 F, 330 V Capacitor D1 Output Diode R1, R2, FB Resistors R3 FB Resistors T1 Transformer 2 x 250 V, 225 mA, 5 pF 2 x 300 V, 225 mA, 5 pF 150 k, 1/4 W 1% (1206) 1.20 k 1/10 W 1% (0603) 1:10, LPrimary = 10.8 H, for ILIM = 1.6 or 1.8 A 1:10.4, LPrimary = 4.7 H, for ILIM = 2.0 A 1:10.2, LPrimary = 12 H, for ILIM = 1.6 A A8438-DS, Rev. 1 Allegro MicroSystems, Inc. 115 Northeast Cutoff, Box 15036 Worcester, Massachusetts 01615-0036 (508) 853-5000 www.allegromicro.com 12 A8438 Photoflash Capacitor Charger with IGBT Driver Use the following complete part number when ordering: Part Number A8438EEJTR-T Packaging 7-in. reel, 1500 pieces/reel Package EJ, 10-Contact MLP/TDFN 3.15 .124 2.85 .112 Preliminary dimensions, for reference only (reference JEDEC MO-229 WEED) Dimensions in millimeters U.S. Customary dimensions (in.) in brackets, for reference only 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 Exposed thermal pad (reference dimensions only, terminal #1 identifier appearance at supplier discretion) 1 10X 0.08 [.003] C 10X 0.30 .012 0.18 .007 0.10 [.004] M C A B 0.05 [.002] M C 0.50 .020 10 A B 3.15 .124 2.85 .112 A 2 C SEATING PLANE 0.80 .031 0.70 .028 0.20 .008 REF 0.05 .002 0.00 .000 1 0.225 x 0.225 .009 x .009 REF 2 0.50 .020 0.30 .012 B 1.64 .065 NOM 10 2.38 .094 NOM 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 detailed 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. Copyright(c)2005 AllegroMicrosystems, Inc. Allegro MicroSystems, Inc. 115 Northeast Cutoff, Box 15036 Worcester, Massachusetts 01615-0036 (508) 853-5000 www.allegromicro.com 13 A8438-DS, Rev. 1 |
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