MIC5235YM5-TR

MIC5235 Ultra-Low Quiescent Current, 150 mA µCap LDO Regulator Features General Description • • • • • The MIC5235 is a 150 mA highly accurate, low dropout regulator with high input voltage and ultra-low ground current. This combination of high voltage and low ground current makes the MIC5235 ideal for USB and portable electronics applications, using 1-cell, 2-cell, or 3-cell Li-Ion battery inputs. • • • • • • • Wide Input Voltage Range: 2.3V to 24V Ultra-Low Ground Current: 18 µA Low Dropout Voltage: 310 mV at 150 mA High Output Accuracy: ±2.0% over Temperature µCap: Stable with Ceramic or Tantalum Capacitors Excellent Line and Load Regulation Specifications Zero Shutdown Current Reverse Battery Protection Reverse Leakage Protection Thermal Shutdown and Current Limit Protection SOT-23-5 Package Adjustable Output from 1.24V to 20V Applications As a µCap LDO design, the MIC5235 is stable with either ceramic or tantalum output capacitor. It only requires a 2.2 μF capacitor for stability. Features of the MIC5235 includes enable input, thermal shutdown, current limit, reverse battery protection, and reverse leakage protection. Available in fixed and adjustable output voltage versions, the MIC5235 is offered in the SOT-23-5 package with a junction temperature range of –40°C to +125°C. • USB Power Supply • Cellular Phones • Keep-Alive Supply in Notebook and Portable Computers • Logic Supply for High-Voltage Batteries • Automotive Electronics • Battery-Powered Systems Package Types MIC5235 (FIXED) 5-Lead SOT-23 (M) (Top View) MIC5235 (ADJ.) 5-Lead SOT-23 (M) (Top View) EN GND IN EN GND IN 3 2 1 3 4 5 4 5 NC OUT ADJ OUT  2021 Microchip Technology Inc. and its subsidiaries 2 1 DS20006603A-page 1 MIC5235 Typical Application Circuit Ultra-Low Current Adjustable Regulator Application MIC5235YM5 VIN 1 2 CIN=1.0μF 3 EN VOUT=1.8V 5 R1 4 R2 COUT=2.2μF ceramic IGND=18μA Functional Block Diagrams Fixed Output Voltage OUT IN EN ENABLE 1.24V VREF GND Adjustable Output Voltage OUT IN EN ENABLE R1 1.24V VREF ADJ R2 GND DS20006603A-page 2  2021 Microchip Technology Inc. and its subsidiaries MIC5235 1.0 ELECTRICAL CHARACTERISTICS Absolute Maximum Ratings † Input Supply Voltage ................................................................................................................................... –20V to +38V Enable Input Voltage .................................................................................................................................. –0.3V to +38V Power Dissipation .................................................................................................................................. Internally Limited ESD Rating .............................................................................................................................................................Note 1 Operating Ratings †† Input Supply Voltage .................................................................................................................................. +2.3V to +24V Enable Input Voltage ....................................................................................................................................... 0V to +24V † 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 kΩ in series with 100 pF. ELECTRICAL CHARACTERISTICS Electrical Characteristics: TA = +25°C with VIN = VOUT + 1V; IOUT = 100 μA, bold values valid for –40°C ≤ TJ ≤ +85°C, unless noted. Note 1 Parameter Output Voltage Accuracy Symbol VOUT Min. Typ. Max. –1.0 — 1.0 –2.0 — 2.0 Units Conditions % Variation from nominal VOUT Line Regulation ΔVOUT/ VOUT — 0.04 — % VIN = VOUT + 1V to 24V Load Regulation ΔVOUT/ VOUT — 0.25 1 % Load = 100 μA to 150 mA — 50 — — 230 300 — — 400 — 270 400 — — 450 — 310 450 — — 500 1.22 1.24 1.25 V — — 18 30 µA IOUT = 100 µA — — 35 µA — — 0.35 0.7 mA IOUT = 50 mA — 1 2 mA IOUT = 100 mA — 2 4 mA IOUT = 150 mA ISHDN — 0.1 1 µA VEN ≤ 0.6V; VIN = 24V ISC — 350 500 µA VOUT = 0V Dropout Voltage Reference Voltage Ground Current Ground Current in Shutdown Short-Circuit Current Note 1: VDO VREF IGND IOUT = 100 µA IOUT = 50 mA mV IOUT = 100 mA IOUT = 150 mA Specification for packaged product only.  2021 Microchip Technology Inc. and its subsidiaries DS20006603A-page 3 MIC5235 ELECTRICAL CHARACTERISTICS (CONTINUED) Electrical Characteristics: TA = +25°C with VIN = VOUT + 1V; IOUT = 100 μA, bold values valid for –40°C ≤ TJ ≤ +85°C, unless noted. Note 1 Parameter Symbol Min. Typ. Max. Units Conditions Output Leakage, Reverse Polarity Input ILK — –0.1 — µA Load = 500Ω, VIN = –15V Input Low Voltage VIL — — 0.6 V Regulator Off Input High Voltage VIH 2.0 — — V Regulator On IIL –1.0 0.01 1.0 — 0.1 1.0 — 0.5 2.5 Enable Input Enable Input Current Note 1: IIH VEN = 0.6V; Regulator Off µA VEN = 2.0V; Regulator On VEN = 24V; Regulator On Specification for packaged product only. TEMPERATURE SPECIFICATIONS Parameters Sym. Min. Typ. Max. Units Conditions Junction Temperature Range TJ –40 — +125 °C Note 1 Storage Temperature Range TS –65 — +150 °C — θJA — 235 — °C/W — Temperature Ranges Package Thermal Resistance Thermal Resistance, SOT-23 5-Ld 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. DS20006603A-page 4  2021 Microchip Technology Inc. and its subsidiaries MIC5235 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. 70 60 3.5 ILOAD = 150mA OUTPUT VOLTAGE (V) Note: TYPICAL PERFORMANCE CURVES 2.5 ILOAD = 75mA PSRR (dB) 50 40 20 0.1 11 0 100 FREQUENCY (kHz) Power Supply Rejection GROUND CURRENT (μA) DROPOUT VOLTAGE (mV) Dropout Characteristics. VIN = 4V 2500 250 2000 200 1500 150 1000 100 50 500 0 02 04 06 08 0 100 120 140 160 OUTPUT CURRENT (mA) Dropout Voltage vs. Output DROPOUT VOLTAGE (mV) 500 450 IOUT = 150mA 400 350 300 FIGURE 2-5: Output Current. 100 50 0 -40 -20 02 04 06 08 0 100 120 TEMPERATURE (°C) Dropout Voltage vs.  2021 Microchip Technology Inc. and its subsidiaries 04 06 08 0 100 120 140 160 OUTPUT CURRENT (mA) Ground Pin Current vs. 30 28 26 24 22 20 18 250 200 150 FIGURE 2-3: Temperature. FIGURE 2-4: 3000 300 FIGURE 2-2: Current. 0 0 0.5 1 1.5 2 2.5 3 3.5 4 INPUT VOLTAGE (V) 1000 350 0 02 ILOAD = 150mA 1 0.5 10 FIGURE 2-1: Ratio. 2 1.5 30 0 0.01 ILOAD = 100μA 3 GROUND CURRENT (μA) 2.0 VIN = 12V 16 14 12 10 0 FIGURE 2-6: Output Current. VIN = 24V VIN = 4V 100 200 300 400 500 OUTPUT CURRENT (μA) Ground Pin Current vs. DS20006603A-page 5 MIC5235 ILOAD = 10mA GROUND CURRENT (μA) 75 70 65 60 55 50 45 40 -40 -20 02 100 90 GROUND CURRENT (μA) 80 IOUT = 10mA 80 70 60 50 IOUT = 1mA 40 30 20 10 0 1.5 04 06 08 0 100 120 TEMPERATURE (°C) Ground Pin Current vs. 700 680 GROUND CURRENT (μA) ILOAD = 75mA 2.4 2.2 IOUT =150mA 1.4 1.2 580 1 0.8 560 540 IOUT = 75mA 0.6 -40 -20 02 04 06 08 0 100 120 0.4 1.5 TEMPERATURE (°C) Ground Pin Current vs. 4 Ground Pin Current vs. 35 30 2.1 2 IOUT = 1mA 25 1.9 1.8 1.7 IOUT = 100μA 20 1.6 1.5 -40 -20 02 04 06 08 0 100 120 TEMPERATURE (°C) DS20006603A-page 6 2 2.5 3 3.5 INPUT VOLTAGE (V) 40 ILOAD = 150mA 2.3 2.2 FIGURE 2-9: Temperature. FIGURE 2-11: Input Voltage. GROUND CURRENT (μA) GROUND CURRENT (mA) 2.5 2.4 4 1.6 620 600 FIGURE 2-8: Temperature. IOUT = 10μA 2 2.5 3 3.5 INPUT VOLTAGE (V) Ground Pin Current vs Input 2 1.8 660 640 520 500 FIGURE 2-10: Voltage. GROUND CURRENT (μA) FIGURE 2-7: Temperature. IOUT = 100μA Ground Pin Current vs. 15 10 49 FIGURE 2-12: Input Voltage. IOUT = 10μA 14 19 INPUT VOLTAGE (V) 24 Ground Pin Current vs.  2021 Microchip Technology Inc. and its subsidiaries MIC5235 120 SHORT CIRCUIT CURRENT (mA) 400 350 INPUT CURRENT (mA) 100 300 80 40 20 0 -20 FIGURE 2-13: Voltage. 3.05 3.04 3.03 OUTPUT VOLTAGE (V) 250 60 200 150 VEN = 5V RLOAD = 30 100 -10 0 SUPPLY VOLTAGE (V) 10 Input Current vs. Supply 50 VIN = 4V 0 -40 -20 02 04 06 08 0 100 120 TEMPERATURE (°C) FIGURE 2-16: Temperature. Short-Circuit Current vs. ILOAD = 100 μA 3.02 3.01 150mA 3 2.99 2.98 0mA VIN = 4V VOUT = 3V COUT = 4.7μF ceramic 2.97 2.96 2.95 -40 -20 02 04 06 08 0 100 120 TEMPERATURE (°C) FIGURE 2-14: Temperature. Output Voltage vs. FIGURE 2-17: Load Transient Response. FIGURE 2-15: Input). Reverse Current (Open FIGURE 2-18: Input). Reverse Current (Grounded  2021 Microchip Technology Inc. and its subsidiaries DS20006603A-page 7 MIC5235 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 IN 2 GND 3 EN 4 Description Supply input. Ground. Enable (input): Logic low = shutdown; Logic high = enable. NC (fixed) No connect. ADJ (adj) Adjust (input): Feedback input. Connect to resistive voltage-divider network. 5 DS20006603A-page 8 OUT Regulator output.  2021 Microchip Technology Inc. and its subsidiaries MIC5235 4.0 APPLICATION INFORMATION 4.1 Enable/Shutdown The MIC5235 comes with an active-high enable pin that allows the regulator to be disabled. Forcing the enable pin low disables the regulator and sends it into a “zero” off-mode current state. In this state, current consumed by the regulator goes nearly to zero. Forcing the enable pin high enables the output voltage. 4.2 Input Capacitor The MIC5235 has high input voltage capability, up to 24V. The input capacitor must be rated to sustain voltages that may be used on the input. An input capacitor may be required when the device is not near the source power supply or when supplied by a battery. Small, surface-mount, ceramic capacitors can be used for bypassing. Larger values may be required if the source supply has high ripple. 4.3 Output Capacitor The MIC5235 requires an output capacitor for stability. The design requires 2.2 μF or greater on the output to maintain stability. The design is optimized for use with low-ESR ceramic chip capacitors. High ESR capacitors may cause high frequency oscillation. The maximum recommended ESR is 3Ω. The output capacitor can be increased without limit. Larger valued capacitors help to improve transient response. X7R/X5R dielectric-type ceramic capacitors are recommended because of their temperature performance. X7R-type capacitors change capacitance by 15% over their operating temperature range and are the most stable type of ceramic capacitors. Z5U and Y5V dielectric capacitors change value by as much as 50% and 60% respectively over their operating temperature ranges. To use a ceramic chip capacitor with Y5V dielectric, the value must be much higher than a X7R ceramic capacitor to ensure the same minimum capacitance over the equivalent operating temperature range. 4.4 No-Load Stability The MIC5235 will remain stable and in regulation with no load, unlike many other voltage regulators. This is especially important in CMOS RAM keep-alive applications. 4.5 Thermal Considerations The MIC5235 is designed to provide 150 mA of continuous current in a very small package. Maximum power dissipation can be calculated based on the output current and the voltage drop across the part. To determine the maximum power dissipation of the  2021 Microchip Technology Inc. and its subsidiaries package, use the junction-to-ambient thermal resistance of the device and the following basic equation: EQUATION 4-1: T J  MAX  – T A P D  MAX  = ------------------------------ JA TJ(MAX) is the maximum junction temperature of the die, 125°C, and TA is the ambient operating temperature. θJA is layout dependent. The Temperature Specifications table shows an example of the junction-to-ambient thermal resistance for the MIC5235. The actual power dissipation of the regulator circuit can be determined with the following equation: EQUATION 4-2: P D =  V IN – V OUT   I OUT + V IN  I GND Substituting PD(MAX) for PD and solving for the operating conditions that are critical to the application will give the maximum operating conditions for the regulator circuit. For example, when operating the MIC5235-3.0YM5 at +50°C with a minimum footprint layout, the maximum input voltage for a set output current can be determined as follows: EQUATION 4-3: 125C – 50C P D  MAX  = ----------------------------------- = 319mW 235C/W The junction-to-ambient (θJA) thermal resistance for the minimum footprint is 235°C/W, from the Temperature Specifications table. It is important that the maximum power dissipation not be exceeded to ensure proper operation. Because the MIC5235 was designed to operate with high input voltages, careful consideration must be given so as not to overheat the device. With very high input-to-output voltage differentials, the output current is limited by the total power dissipation. Total power dissipation is calculated using the following equation: DS20006603A-page 9 MIC5235 4.6 EQUATION 4-4: P D =  V IN – V OUT   I OUT + V IN  I GND Adjustable Regulator Application The MIC5235YM5 can be adjusted from 1.24V to 20V by using two external resistors (Figure 4-1). The resistors set the output voltage based on the following equation: EQUATION 4-8: Due to the potential for input voltages up to 24V, ground current must be taken into consideration. If we know the maximum load current, we can solve for the maximum input voltage using the maximum power dissipation calculated for a +50°C ambient, 319 mV. EQUATION 4-5: V OUT = V REF   1 + R1 -------  R2 Where: VREF = 1.24V Feedback resistor R2 should be no larger than 300 kΩ. 319mW =  V IN – 3V   150mA + V IN  2.8mA VIN MIC5235YM5 IN Ground pin current is estimated using the typical characteristics of the device. R1 1.0μF EQUATION 4-6: 769mW = V IN  152.8mA V IN = 5.03V VOUT OUT FIGURE 4-1: Application. EN GND ADJ. 2.2μF R2 Adjustable Voltage For higher current outputs, only a lower input voltage will work for higher ambient temperatures. Assuming a lower output current of 20 mA, the maximum input voltage can be recalculated: EQUATION 4-7: 319mW =  V IN – 3V   20mA + V IN  0.2mA 319mW = V IN  20.2mA V IN = 18.8V Maximum input voltage for a 20 mA load current at +50°C ambient temperature is 18.8V, utilizing virtually the entire operating voltage range of the device. DS20006603A-page 10  2021 Microchip Technology Inc. and its subsidiaries MIC5235 5.0 PACKAGING INFORMATION 5.1 Package Marking Information 5-Lead SOT-23* Example XXXX NNN TABLE 5-1: L218 792 MARKING CODES Part Number Marking Code Voltage MIC5235-1.5YM5 L215 1.5V MIC5235-1.8YM5 L218 1.8V MIC5235-2.5YM5 L225 2.5V MIC5235-2.7YM5 L227 2.7V MIC5235-2.8YM5 L228 2.8V MIC5235-3.0YM5 L230 3.0V MIC5235-3.3YM5 L233 3.3V MIC5235-5.0YM5 L250 5.0V MIC5235YM5 L2AA Adjustable Legend: XX...X Y YY WW NNN e3 * 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.  2021 Microchip Technology Inc. and its subsidiaries DS20006603A-page 11 MIC5235 5-Lead SOT-23 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. DS20006603A-page 12  2021 Microchip Technology Inc. and its subsidiaries MIC5235 APPENDIX A: REVISION HISTORY Revision A (October 2021) • Converted Micrel document MIC5235 to Microchip data sheet template DS20006603A. • Minor grammatical text changes throughout.  2021 Microchip Technology Inc. and its subsidiaries DS20006603A-page 13 MIC5235 NOTES: DS20006603A-page 14  2021 Microchip Technology Inc. and its subsidiaries MIC5235 PRODUCT IDENTIFICATION SYSTEM To order or obtain information, e.g., on pricing or delivery, contact your local Microchip representative or sales office. Device -X.X X XX -XX Part No. Output Voltage Temp. Range Package Media Type MIC5235: Ultra-Low Quiescent Current, 150 mA µCap LDO Regulator Device: 1.5 = 1.8 = 1.5 = 2.7 = 2.8 = 3.0 = 3.3 = 5.0 = = 1.5V 1.8V 2.5V 2.7V 2.8V 3.3V 3.3V 5.0V Adjustable Temperature Range: Y = –40°C to +125°C Package: M5 = 5-Lead SOT-23 Media Type: TX TR = = 3,000/Reverse Tape & Reel 3,000/Reel Output Voltage:  2021 Microchip Technology Inc. and its subsidiaries Examples: a) MIC5235-1.5YM5-TR: MIC5235, 1.5V Output Voltage, –40°C to +125°C, 5-Lead SOT-23, 3,000/Reel b) MIC5235YM5-TR: MIC5235, Adjustable Output Voltage, –40°C to +125°C, 5-Lead SOT-23, 3,000/Reel c) MIC5235-2.5YM5-TR: MIC5235, 2.5V Output Voltage, –40°C to +125°C, 5-Lead SOT-23, 3,000/Reel d) MIC5235-3.3YM5-TX: MIC5235, 3.3V Output Voltage, –40°C to +125°C, 5-Lead SOT-23, 3,000/Reverse TR e) MIC5235-5.0YM5-TR: MIC5235, 5.0V Output Voltage, –40°C to +125°C, 5-Lead SOT-23, 3,000/Reel f) MIC5235-1.8YM5-TX: MIC5235, 1.8V Output Voltage, –40°C to +125°C, 5-Lead SOT-23, 3,000/Reverse TR Note 1: 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. DS20006603A-page 15 MIC5235 NOTES: DS20006603A-page 16  2021 Microchip Technology Inc. and its subsidiaries Note the following details of the code protection feature on Microchip products: • Microchip products meet the specifications contained in their particular Microchip Data Sheet. • Microchip believes that its family of products is secure when used in the intended manner, within operating specifications, and under normal conditions. • Microchip values and aggressively protects its intellectual property rights. Attempts to breach the code protection features of Microchip product is strictly prohibited and may violate the Digital Millennium Copyright Act. • Neither Microchip nor any other semiconductor manufacturer can guarantee the security of its code. Code protection does not mean that we are guaranteeing the product is “unbreakable”. Code protection is constantly evolving. Microchip is committed to continuously improving the code protection features of our products. This publication and the information herein may be used only with Microchip products, including to design, test, and integrate Microchip products with your application. Use of this information in any other manner violates these terms. Information regarding device applications is provided only for your convenience and may be superseded by updates. It is your responsibility to ensure that your application meets with your specifications. Contact your local Microchip sales office for additional support or, obtain additional support at https:// www.microchip.com/en-us/support/design-help/client-supportservices. THIS INFORMATION IS PROVIDED BY MICROCHIP "AS IS". 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