MIC4127YME

MIC4126/27/28 Dual 1.5A-Peak Low-Side MOSFET Drivers in Advanced Packaging Features General Description • Dual 1.5A-Peak Drivers • 4.5V to 20V Operating Range • Exposed Backside Pad Packaging Reduces Heat - ePAD SOIC-8L (JA = 58°C/W) - ePAD MSOP-8L (JA = 60°C/W) - VDFN ML™-8L (JA = 60°C/W) • Bipolar/CMOS/DMOS Construction - 25mV maximum output offset from supply or ground • Latch-Up Protection to >200mA Reverse Current • Switches 1000pF in 25ns • Logic-Input Threshold Independent of Supply Voltage • Logic-Input Protection to –5V • 6pF Typical Equivalent Input Capacitance • Dual Inverting, Dual Noninverting, and Complementary Configurations - -40°C to +125°C operating junction temperature range The MIC4126, MIC4127, and MIC4128 family are highly-reliable dual 1.5A low-side MOSFET drivers fabricated on Microchip’s BiCMOS/DMOS process. The devices feature low power consumption and high efficiency. The MIC4126/27/28 translate TTL or CMOS input logic levels to output voltage levels that swing within 25mV of the positive supply or ground whereas comparable bipolar devices are capable of swinging only to within 1V of the supply. The MIC4126/7/8 is available in three configurations: dual inverting, dual noninverting, and complimentary output. The MIC4126/27/28 offer pin-compatible as well as smaller footprint replacements for the MIC4426/27/28 with improved packaging and electrical performance. The MIC4126/27/28 are available in exposed pad, EPAD, SOIC-8L and MSOP-8L options as well as a small-size VDFN ML™-8L option. The devices have an input operating range of 4.5V to 20V. Primarily intended for driving power MOSFETs, MIC4426/7/8 drivers are suitable for driving other loads (capacitive, resistive, or inductive) which require low-impedance, high peak current, and fast switching time. The devices can withstand up to 500mA of reverse current (either polarity) without latching and up to 5V noise spikes (either polarity) on ground pins. Data sheets and support documentation can be found on Microchip’s website at www.microchip.com. Applications • DC/DC Converters • Motor Drivers • Clock Line Driver Package Types MIC4126 ePad SOIC-8L (ME) ePad MSOP-8L (MME) VDFN-8 (ML) (Top View)  2019 Microchip Technology Inc. MIC4127 ePad SOIC-8L (ME) ePad MSOP-8L (MME) VDFN-8 (ML) (Top View) MIC4128 ePad SOIC-8L (ME) ePad MSOP-8L (MME) VDFN-8 (ML) (Top View) DS20006084A-page 1 MIC4126/27/28 Functional Block Diagram VS 0.6mA INVERTING 0.1mA OUTA INA 2k: NONINVERTING 0.6mA INVERTING 0.1mA OUTB INB 2k: NONINVERTING GND The function block diagram contains only four resistors, four capacitors, and 52 transistors. Be sure to ground any unused inputs.  2019 Microchip Technology Inc. DS20006084A-page 2 MIC4126/27/28 1.0 ELECTRICAL CHARACTERISTICS Absolute Maximum Ratings † Supply Voltage ..........................................................................................................................................................+24V Input Voltage ................................................................................................................................ VS + 0.3V to GND – 5V ESD Susceptibility................................................................................................................................................ (Note 1) Operating Ratings †† Supply Voltage (VS) ................................................................................................................................... +4.5V to +20V † Notice: Stresses above those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. This is a stress rating only and functional operation of the device at those or any other conditions above those indicated in the operational sections of this specification is not intended. Exposure to maximum rating conditions for extended periods may affect device reliability. †† Notice: The device is not guaranteed to function outside its operating ratings. Note 1: Devices are ESD sensitive. Handling precautions are recommended. Human body model, 1.5 k in series with 100 pF. ELECTRICAL CHARACTERISTICS Electrical Characteristics: 4.5V  VS  20V; TA = +25°C, bold values indicate full specified temperature range; unless noted. Input voltage slew rate >1V/µs; COUT = 1000pF. Note 1 Parameter Sym. Min. Typ. Max. Units Conditions VIH 2.4 1.4 — V — 2.4 1.6 — V — — 1.1 0.8 V — — 1.3 0.8 V — IIN –1 — 1 µA 0V  VIN  VS High Output Voltage VOH VS – 0.025 — — V — Low Output Voltage VOL — — 0.025 V — Output Resistance RO — 6 10 — 8 12  IOUT = 10 mA, VS = 20V Peak Output Current IPK — 1.5 — A — Latch-Up Protection I >200 — — mA Withstand Reverse Current — 13 30 — 20 40 ns Test Figure 1-1 — 15 25 — 18 40 ns Test Figure 1-1 — 37 50 — 43 60 ns Test Figure 1-1 — 40 60 — 45 70 ns Test Figure 1-1 Input Logic 1 Input Voltage Logic 0 Input Voltage Input Current VIL Output Switching Time Rise Time tR Fall Time tF Delay Time tD1 Delay Time tD2 Note 1: Specification for packaged product only.  2019 Microchip Technology Inc. DS20006084A-page 3 MIC4126/27/28 ELECTRICAL CHARACTERISTICS (CONTINUED) Electrical Characteristics: 4.5V  VS  20V; TA = +25°C, bold values indicate full specified temperature range; unless noted. Input voltage slew rate >1V/µs; COUT = 1000pF. Note 1 Parameter Sym. Min. Typ. Max. — 1.4 4.5 — 1.5 8 — 0.18 0.4 — 0.19 0.6 Units Conditions Power Supply Power Supply Current IS Power Supply Current IS Note 1: mA VINA = VINB 3.0V mA VINA = VINb 0.0V Specification for packaged product only.  2019 Microchip Technology Inc. DS20006084A-page 4 MIC4126/27/28 TEMPERATURE SPECIFICATIONS Parameters Sym. Min. Typ. Max. Units Maximum Junction Temperature TJ — — +150 °C Conditions Temperature Ranges — Storage Temperature Range TS –65 — +150 °C — Lead Temperature — — — +300 °C 10 sec. Junction Operating Temperature Range TJ –40 — +125 °C — Thermal Resistance, 3x3 VDFN 8-Ld JA — 60 — °C/W — Thermal Resistance, EP MSOP 8-Ld JA — 60 — °C/W — Thermal Resistance, EP SOIC 8-Ld JA — 58 — °C/W — Package Thermal Resistances Note 1: The maximum allowable power dissipation is a function of ambient temperature, the maximum allowable junction temperature and the thermal resistance from junction to air (i.e., TA, TJ, JA). Exceeding the maximum allowable power dissipation will cause the device operating junction temperature to exceed the maximum +125°C rating. Sustained junction temperatures above +125°C can impact the device reliability.  2019 Microchip Technology Inc. DS20006084A-page 5 MIC4126/27/28 Test Circuits FIGURE 1-1: Inverting Driver Switching Time. FIGURE 1-2: Noninverting Driver Switching Time.  2019 Microchip Technology Inc. DS20006084A-page 6 MIC4126/27/28 2.0 Note: TYPICAL PERFORMANCE CURVES The graphs and tables provided following this note are a statistical summary based on a limited number of samples and are provided for informational purposes only. The performance characteristics listed herein are not tested or guaranteed. In some graphs or tables, the data presented may be outside the specified operating range (e.g., outside specified power supply range) and therefore outside the warranted range. FIGURE 2-1: Rise and Fall Time. FIGURE 2-2: Capacitive Load. MIC4127 Supply Current vs. FIGURE 2-3: Frequency. Supply Current vs.  2019 Microchip Technology Inc. FIGURE 2-4: Resistance. MIC4126 Output FIGURE 2-5: Turn On and Turn Off Delay. FIGURE 2-6: Capacitive Load. Rise and Fall Time vs. DS20006084A-page 7 MIC4126/27/28 FIGURE 2-10: Capacitive Load. Rise and Fall Time vs. FIGURE 2-8: Quiescent Power Supply Current vs. Supply Voltage. FIGURE 2-11: High Output vs. Current. FIGURE 2-9: Capacitive Load. FIGURE 2-12: Quiescent Power Supply Current vs. Supply Voltage. FIGURE 2-7: Low Output vs. Current. MIC4127 Supply Current vs.  2019 Microchip Technology Inc. DS20006084A-page 8 MIC4126/27/28 3.0 PIN DESCRIPTIONS The descriptions of the pins are listed in Table 3-1. TABLE 3-1: PIN FUNCTION TABLE Pin Number Pin Name 1, 8 NC Description Not internally connected 2 INA Control Input A: TTL/CMOS compatible logic input 3 GND Ground 4 INB Control Input B: TTL/CMOS compatible logic input 5 OUTB 6 VS 7 OUTA Output A: CMOS totem-pole output EP GND Ground, backside pad  2019 Microchip Technology Inc. Output B: CMOS totem-pole output Supply Input: +4.5V to +20V DS20006084A-page 9 MIC4126/27/28 4.0 APPLICATION INFORMATION Supply Bypassing Large currents are required to charge and discharge large capacitive loads quickly. For example, changing a 1000pF load by 16V in 25ns requires 0.8A from the supply input. To ensure low supply impedance over a wide frequency range, parallel capacitors are recommended for power supply bypassing. Low-inductance ceramic MLC capacitors with short lead lengths (< 0.5") should be used. A 1.0µF film capacitor in parallel with one or two 0.1µF ceramic MLC capacitors normally provides adequate bypassing. Power Dissipation Power dissipation should be calculated to make sure that the driver is not operated beyond its thermal ratings. Quiescent power dissipation is negligible. A practical value for total power dissipation is the sum of the dissipation caused by the load and the transition power dissipation (PL + PT). Load Dissipation Power dissipation caused by continuous load current (when driving a resistive load) through the driver’s output resistance is: PL = IL2 RO For capacitive loads, the dissipation in the driver is: PL = f CL VS2 Grounding Transition Dissipation When using the inverting drivers in the MIC4126 or MIC4128, individual ground returns for the input and output circuits or a ground plane are recommended for optimum switching speed. The voltage drop that occurs between the driver’s ground and the input signal ground, during normal high-current switching, will behave as negative feedback and degrade switching speed. In applications switching at a high frequency, transition power dissipation can be significant. This occurs during switching transitions when the P-channel and N-channel output FETs are both conducting for the brief moment when one is turning on and the other is turning off. The E-pad and ML packages have an exposed pad under the package. It is important for good thermal performance that this pad is connected to a ground plane. PT = 2 f VS Q Charge (Q) is read from the following graph: Control Input Unused driver inputs must be connected to logic high (which can be VS) or ground. For the lowest quiescent current (< 500µA), connect unused inputs-to-ground. A logic-high signal will cause the driver to draw up to 9mA. The control input voltage threshold is approximately 1.5V. The control input recognizes 1.5V up to VS as a logic high and draws less than 1µA within this range. Crossover Energy Loss per Transition  2019 Microchip Technology Inc. DS20006084A-page 10 MIC4126/27/28 5.0 PACKAGING INFORMATION 5.1 Package Marking Information 8-Lead SOIC* XXX XXXXXXX WNNN Example XXXXXXX WNNN 4125YML 2943 XXXXXX 0NNN Legend: XX...X Y YY WW NNN e3 MIC 4123YME 8790 8-Lead VDFN* 8-Lead MSOP * Example Example 4126YM 0NNN Product code or customer-specific information Year code (last digit of calendar year) Year code (last 2 digits of calendar year) Week code (week of January 1 is week ‘01’) Alphanumeric traceability code Pb-free JEDEC® designator for Matte Tin (Sn) This package is Pb-free. The Pb-free JEDEC designator ( e3 ) can be found on the outer packaging for this package. ●, ▲, ▼ Pin one index is identified by a dot, delta up, or delta down (triangle mark). Note: In the event the full Microchip part number cannot be marked on one line, it will be carried over to the next line, thus limiting the number of available characters for customer-specific information. Package may or may not include the corporate logo. Underbar (_) and/or Overbar (⎯) symbol may not be to scale.  2019 Microchip Technology Inc. DS20006084A-page 11 MIC4126/27/28 8-Lead SOICN ePad Package Outline and Recommended Land Pattern 8-Lead Small Outline Integrated Circuit Package (EQA) - 3.90 mm (1.50 In) Body [SOIC] With 3.10x2.41 mm Exposed Pad Note: For the most current package drawings, please see the Microchip Packaging Specification located at http://www.microchip.com/packaging 2X 8X 0.10 C 0.09 C A-B D A D SEE DETAIL A 2X 0.09 C D E 2 E1 2 E1 E NOTE 1 h 2X 0.18 C e h B A1 TOP VIEW A2 0.10 C A SEATING C PLANE END VIEW SIDE VIEW D1 E2 BOTTOM VIEW Microchip Technology Drawing C04-1136 Rev A Sheet 1 of 2 © 2018 Microchip Technology Incorporated  2019 Microchip Technology Inc. DS20006084A-page 12 MIC4126/27/28 8-Lead Small Outline Integrated Circuit Package (EQA) - 3.90 mm (1.50 In) Body [SOIC] With 3.10x2.41 mm Exposed Pad Note: For the most current package drawings, please see the Microchip Packaging Specification located at http://www.microchip.com/packaging R1 R2 C C SEATING PLANE ‫ڧ‬ L (L1) DETAIL A Units Dimension Limits Number of Terminals N e Pitch A Overall Height Standoff A1 Molded Package Thickness A2 Overall Length D Exposed Pad Length D1 E Overall Width Molded Package Width E1 E2 Exposed Pad Width b Terminal Width c Lead Thickness L Terminal Length Terminal-to-Exposed-Pad L1 Foot Angle ‫ڧ‬ Lead Bend Radius R1 Terminal Length R2 Mold Draft Angle Mold Draft Angle MIN 1.43 0.00 1.25 - 0.35 0.19 0.41 0° 0.07 0.07 5° 5° MILLIMETERS NOM 8 1.27 BSC 1.55 0.05 4.89 BSC 3.10 6.02 BSC 3.90 BSC 2.41 0.41 0.20 0.64 1.04 REF 5° - MAX 1.68 0.10 - 0.49 0.25 0.89 8° 15° 15° Notes: 1. Pin 1 visual index feature may vary, but must be located within the hatched area. 2. Package is saw singulated 3. Dimensioning and tolerancing per ASME Y14.5M BSC: Basic Dimension. Theoretically exact value shown without tolerances. REF: Reference Dimension, usually without tolerance, for information purposes only. Microchip Technology Drawing C04-1136 Rev A Sheet 2 of 2 © 2018 Microchip Technology Incorporated  2019 Microchip Technology Inc. DS20006084A-page 13 MIC4126/27/28 8-Lead Small Outline Integrated Circuit Package (EQA) - 3.90 mm (1.50 In) Body [SOIC] With 3.10x2.41 mm Exposed Pad Note: For the most current package drawings, please see the Microchip Packaging Specification located at http://www.microchip.com/packaging X2 EV 8 SILK SCREEN ØV C Y2 EV G1 Y1 1 2 X1 G2 E RECOMMENDED LAND PATTERN Units Dimension Limits E Contact Pitch Optional Center Pad Width X2 Optional Center Pad Length Y2 Contact Pad Spacing C Contact Pad Width (X8) X1 Contact Pad Length (X8) Y1 Contact Pad to Center Pad (X8) G1 Contact Pad to Contact Pad (X6) G2 Thermal Via Diameter V Thermal Via Pitch EV MIN MILLIMETERS NOM 1.27 BSC MAX 3.15 2.45 5.40 0.60 1.60 0.68 0.67 0.30 1.00 Notes: 1. Dimensioning and tolerancing per ASME Y14.5M BSC: Basic Dimension. Theoretically exact value shown without tolerances. 2. For best soldering results, thermal vias, if used, should be filled or tented to avoid solder loss during reflow process Microchip Technology Drawing C04-1136 Rev A © 2018 Microchip Technology Incorporated  2019 Microchip Technology Inc. DS20006084A-page 14 MIC4126/27/28 8-Lead MSOP ePad Package Outline and Recommended Land Pattern Note: For the most current package drawings, please see the Microchip Packaging Specification located at http://www.microchip.com/packaging.  2019 Microchip Technology Inc. DS20006084A-page 15 MIC4126/27/28 8-Lead Very Thin Plastic Dual Flat, No Lead Package (JMA) - 3x3x0.9 mm Body [VDFN] Micrel Legacy Package DFN33-8LD-PL-1 Note: For the most current package drawings, please see the Microchip Packaging Specification located at http://www.microchip.com/packaging D A B N (DATUM A) (DATUM B) E NOTE 1 2X 0.05 C 1 2X 2 TOP VIEW 0.05 C 0.10 C SEATING C A A1 PLANE 8X 0.08 C SIDE VIEW (A3) 0.10 C A B D2 1 2 0.10 C A B E2 K L N 8X b e BOTTOM VIEW 0.10 0.05 C A B C Microchip Technology Drawing C04-1021 A Sheet 1 of 2  2019 Microchip Technology Inc. DS20006084A-page 16 MIC4126/27/28 8-Lead Very Thin Plastic Dual Flat, No Lead Package (JMA) - 3x3x0.9 mm Body [VDFN] Micrel Legacy Package DFN33-8LD-PL-1 Note: For the most current package drawings, please see the Microchip Packaging Specification located at http://www.microchip.com/packaging Notes: Units Dimension Limits N Number of Terminals e Pitch Overall Height A Standoff A1 A3 Terminal Thickness Overall Length D Exposed Pad Length D2 E Overall Width E2 Exposed Pad Width Terminal Width b L Terminal Length Terminal-to-Exposed-Pad K MIN 0.80 0.00 2.25 1.50 0.20 0.35 0.20 MILLIMETERS NOM 8 0.65 BSC 0.85 0.02 0.203 REF 3.00 BSC 2.30 3.00 BSC 1.55 0.25 0.40 - MAX 0.90 0.05 2.35 1.60 0.30 0.45 - 1. Pin 1 visual index feature may vary, but must be located within the hatched area. 2. Package is saw singulated 3. Dimensioning and tolerancing per ASME Y14.5M BSC: Basic Dimension. Theoretically exact value shown without tolerances. REF: Reference Dimension, usually without tolerance, for information purposes only. Microchip Technology Drawing C04-1021 A Sheet 1 of 2  2019 Microchip Technology Inc. DS20006084A-page 17 MIC4126/27/28 8-Lead Very Thin Plastic Dual Flat, No Lead Package (JMA) - 3x3x0.9 mm Body [VDFN] Micrel Legacy Package DFN33-8LD-PL-1 Note: For the most current package drawings, please see the Microchip Packaging Specification located at http://www.microchip.com/packaging X2 EV 8 ØV Y2 C EV G1 Y1 1 2 SILK SCREEN X1 G2 E RECOMMENDED LAND PATTERN Units Dimension Limits Contact Pitch E Optional Center Pad Width X2 Optional Center Pad Length Y2 Contact Pad Spacing C Contact Pad Width (X8) X1 Contact Pad Length (X8) Y1 Contact Pad to Center Pad (X8) G1 Contact Pad to Contact Pad (X6) G2 Thermal Via Diameter V Thermal Via Pitch EV MIN MILLIMETERS NOM 0.65 BSC MAX 2.35 1.60 2.90 0.30 0.85 0.23 0.35 0.30 1.00 Notes: 1. Dimensioning and tolerancing per ASME Y14.5M BSC: Basic Dimension. Theoretically exact value shown without tolerances. 2. For best soldering results, thermal vias, if used, should be filled or tented to avoid solder loss during reflow process Microchip Technology Drawing C04-3021 Rev A  2019 Microchip Technology Inc. DS20006084A-page 18 MIC4126/27/28 APPENDIX A: REVISION HISTORY Revision A (06/2019) • Converted Micrel document MIC4126/27/28 (M9999-072605) to Microchip data sheet template DS20006084A. • Minor grammatical text changes throughout. • Updated Packaging Information to MCHP standard versions.  2019 Microchip Technology Inc. DS20006084A-page 19 MIC4126/27/28 PRODUCT IDENTIFICATION SYSTEM To order or obtain information, e.g., on pricing or delivery, contact your local Microchip representative or sales office. Examples: Device X XX -XX Part No. Junction Temp. Range Package Media Type a) MIC4126:1.5A-Peak, Dual Inverting, Low-Side MOSFET Driver in Advanced Packaging, Extended Temperature Range, –40°C to +125°C, RoHS Compliant. MIC4126YME 8-Lead ePad SOIC Package 95/Tube MIC4126YME-TR 8-Lead ePad SOIC Package 2500/Reagingel MIC4126YMME 8-Lead ePad MSOP Package 100/Tube MIC4126YMME-TR8-Lead ePad MSOP Package 2500/Reel MIC4126YML-TR 8-Lead VDFN Package 5000/Reel b) MIC4127:1.5A-Peak, Dual Noninverting, Low-Side MOSFET Driver in Advanced Packaging, Extended Temperature Range, –40°C to +125°C, RoHS Compliant. MIC4127YME 8-Lead ePad SOIC Package 95/Tube MIC4127YME-TR 8-Lead ePad SOIC Package 2500/Reagingel MIC4127YMME 8-Lead ePad MSOP Package 100/Tube MIC4127YMME-TR8-Lead ePad MSOP Package 2500/Reel MIC4127YML-TR 8-Lead VDFN Package 5000/Reel c) MIC4128:1.5A-Peak, Inverting and Noninverting, Low-Side MOSFET Driver in Advanced Packaging, Extended Temperature Range, – 40°C to +125°C, RoHS Compliant. MIC4128YME 8-Lead ePad SOIC Package 95/Tube MIC4128YME-TR 8-Lead ePad SOIC Package 2500/Reagingel MIC4128YMME 8-Lead ePad MSOP Package 100/Tube MIC4128YMME-TR 8-Lead ePad MSOP Package 2500/Reel MIC4128YML-TR 8-Lead VDFN Package 5000/Reel Dual 1.5A-Peak Low-Side MOSFET Driver in Advance Packaging Bipolar/CMOS/DMOS Process Device: MIC4126: MIC4127: MIC4128: Dual Inverting Dual Noninverting Inverting and Noninverting Junction Temperature Range: Y Package: ME = MME= ML = 8-Lead ePad SOIC 8-Lead ePad MSOP 8-Lead VDFN Media Type: = = TR = TR = 95/Tube (ME, ePad SOIC) 100/Tube (MME, ePad MSOP) 2,500/Reel (ME & MME, ePad SOIC) 5,000/Reel (ML, VDFN) = –40°C to +125°C, RoHS Compliant Note 1:  2019 Microchip Technology Inc. Tape and Reel identifier only appears in the catalog part number description. This identifier is used for ordering purposes and is not printed on the device package. Check with your Microchip Sales Office for package availability with the Tape and Reel option. DS20006084A-page 20 Note the following details of the code protection feature on Microchip devices: • Microchip products meet the specification contained in their particular Microchip Data Sheet. • Microchip believes that its family of products is one of the most secure families of its kind on the market today, when used in the intended manner and under normal conditions. • There are dishonest and possibly illegal methods used to breach the code protection feature. All of these methods, to our knowledge, require using the Microchip products in a manner outside the operating specifications contained in Microchip’s Data Sheets. Most likely, the person doing so is engaged in theft of intellectual property. • Microchip is willing to work with the customer who is concerned about the integrity of their code. • Neither Microchip nor any other semiconductor manufacturer can guarantee the security of their code. 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Adjacent Key Suppression, AKS, Analog-for-the-Digital Age, Any Capacitor, AnyIn, AnyOut, BlueSky, BodyCom, CodeGuard, CryptoAuthentication, CryptoAutomotive, CryptoCompanion, CryptoController, dsPICDEM, dsPICDEM.net, Dynamic Average Matching, DAM, ECAN, EtherGREEN, In-Circuit Serial Programming, ICSP, INICnet, Inter-Chip Connectivity, JitterBlocker, KleerNet, KleerNet logo, memBrain, Mindi, MiWi, MPASM, MPF, MPLAB Certified logo, MPLIB, MPLINK, MultiTRAK, NetDetach, Omniscient Code Generation, PICDEM, PICDEM.net, PICkit, PICtail, PowerSmart, PureSilicon, QMatrix, REAL ICE, Ripple Blocker, SAM-ICE, Serial Quad I/O, SMART-I.S., SQI, SuperSwitcher, SuperSwitcher II, Total Endurance, TSHARC, USBCheck, VariSense, ViewSpan, WiperLock, Wireless DNA, and ZENA are trademarks of Microchip Technology Incorporated in the U.S.A. and other countries. SQTP is a service mark of Microchip Technology Incorporated in the U.S.A. The Adaptec logo, Frequency on Demand, Silicon Storage Technology, and Symmcom are registered trademarks of Microchip Technology Inc. in other countries. GestIC is a registered trademark of Microchip Technology Germany II GmbH & Co. KG, a subsidiary of Microchip Technology Inc., in other countries. All other trademarks mentioned herein are property of their respective companies. © 2019, Microchip Technology Incorporated, All Rights Reserved. For information regarding Microchip’s Quality Management Systems, please visit www.microchip.com/quality.  2019 Microchip Technology Inc. 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