NCP ma High Performance CMOS LDO Regulator with Enable and Enhanced ESD Protection
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1 NCP63 3 ma High Performance CMOS LDO Regulator with Enable and Enhanced ESD Protection The NCP63 provides 3 ma of output current at fixed voltage options, or an adjustable output voltage from. V down to 1.2 V. It is designed for portable battery powered applications and offers high performance features such as low power operation, fast enable response time, and low dropout. The device is designed to be used with low cost ceramic capacitors and is packaged in the TSOP/SOT2. Features Output Voltage Options: Adjustable, 1.3 V, 1. V, 1.8 V, 2. V, 2.8 V, 3. V, 3.3 V, 3. V,. V Adjustable Output by External Resistors from. V down to 1.2 V Fast Enable Turnon Time of 1 s Wide Supply Voltage Range Operating Range Excellent Line and Load Regulation Typical Noise Voltage of V rms without a Bypass Capacitor Enhanced ESD Protection (HBM 3. kv, MM 2 V) These are PbFree Devices Typical Applications SMPS PostRegulation Handheld Instrumentation & Audio Players Noise Sensitive Circuits VCO, RF Stages, etc. Camcorders and Cameras Portable Computing xxx A Y W PIN CONNECTIONS V in GND MARKING DIAGRAM TSOP SN SUFFIX CASE 483 xxx AYW = Specific Device Code = Assembly Location = Year = Work Week = PbFree Package (Note: Microdot may be in either location) V out V IN V OUT ENABLE 3 4 ADJ/NC* Fixed Voltage Only (Top View) GND Driver w/ Current Limit Thermal Shutdown V Adjustable Version Only ADJ * ADJ Adjustable Version * NC Fixed Voltage Version ORDERING INFORMATION See detailed ordering and shipping information in the package dimensions section on page 12 of this data sheet. ENABLE Figure 1. Simplified Block Diagram Semiconductor Components Industries, LLC, 21 January, 213 Rev. 3 1 Publication Order Number: NCP63/D
2 NCP63 PIN FUNCTION DESCRIPTION Pin No. Pin Name Description 1 V in Positive Power Supply Input 2 GND Power Supply Ground; Device Substrate 3 ENABLE The Enable Input places the device into lowpower standby when pulled to logic low (<.4 V). Connect to V in if the function is not used. 4 ADJ/NC Output Voltage Adjust Input (Adjustable Version), No Connection (Fixed Voltage Versions) (Note 1) V out Regulated Output Voltage 1. True no connect. Printed circuit board traces are allowable. ABSOLUTE MAXIMUM RATINGS Rating Symbol Value Unit Input Voltage (Note 2) V in.3 to 6. V Output, Enable, Adjustable Voltage V out, ENABLE, ADJ.3 to 6. (or V in +.3) V Whichever is Lower Maximum Junction Temperature T J(max) 1 C Storage Temperature T STG 6 to 1 C ESD Capability, Human Body Model (Note 3) ESD HBM V ESD Capability, Machine Model (Note 3) ESD MM 2 V Moisture Sensitivity Level MSL MSL1/26 Stresses exceeding Maximum Ratings may damage the device. Maximum Ratings are stress ratings only. Functional operation above the Recommended Operating Conditions is not implied. Extended exposure to stresses above the Recommended Operating Conditions may affect device reliability. 2. Refer to ELECTRICAL CHARACTERISTICS and APPLICATION INFORMATION for Safe Operating Area. 3. This device series incorporates ESD protection and is tested by the following methods: ESD Human Body Model tested per AECQ12 (EIA/JESD22A114) ESD Machine Model tested per AECQ13 (EIA/JESD22A11) Latchup Current Maximum Rating: 1 ma per JEDEC standard: JESD78. THERMAL CHARACTERISTICS Rating Symbol Value Unit Thermal Characteristics, TSOP (Note 4) Thermal Resistance, JunctiontoAir (Note ) R JA Refer to ELECTRICAL CHARACTERISTICS and APPLICATION INFORMATION for Safe Operating Area.. Value based on copper area of 64 mm 2 (or 1 in 2 ) of 1 oz copper thickness. C/W OPERATING RANGES (Note 6) Rating Symbol Min Max Unit Input Voltage (Note 7) V in V Adjustable Output Voltage (Adjustable Version Only) V out 1.2. V Output Current I out 3 ma Ambient Temperature T A 4 C 6. Refer to ELECTRICAL CHARACTERISTICS and APPLICATION INFORMATION for Safe Operating Area. 7. Minimum V in = 1.7 V or (V out + V DO ), whichever is higher. 2
3 NCP63 ELECTRICAL CHARACTERISTICS (V in = 1.7 V, V out = 1.2 V, C in = C out =1. F, for typical values T A = 2 C, for min/max values T A = 4 C to C, unless otherwise specified.) (Note 8) Characteristic Symbol Test Conditions Min Typ Max Unit Regulator Output (Adjustable Voltage Version) Output Voltage V out I out = 1. ma to 1 ma V in = 1.7 V to 6. V, V out = ADJ (1.%) (+1.%) V Output Voltage V out I out = 1. ma to 3 ma V in = 1.7 V to 6. V, V out = ADJ = 1.2 V Power Supply Ripple Rejection (Note 9) PSRR I out = 1. ma to 1 ma V in = V out + 1 V +. V pp f = 12 Hz f = 1. khz f = 1 khz Line Regulation Reg line V in = 1.7 V to 6. V, I out = 1. ma (3%) (+3%) V db 1. 1 mv Load Regulation Reg load I out = 1. ma to 3 ma 2. 4 mv Output Noise Voltage (Note 9) V n f = 1 Hz to 1 khz V rms Output Short Circuit Current I sc 6 9 ma Dropout Voltage 1.2 V V DO Measured at: Vout 2.%, I out = 1 ma, Figure mv Dropout Voltage 1.2 V V DO Measured at: Vout 2.%, I out = 3 ma, Figure mv Output Current Limit (Note 9) I out(max) 3 6 ma Regulator Output (Fixed Voltage Version) (V in = V out +. V, C in = C out =1. F, for typical values T A = 2 C, for min/max values T A = 4 C to C; unless otherwise noted.) (Note 8) Output Voltage 1.3 V 1. V 1.8 V 2. V 2.8 V 3. V 3.3 V 3. V. V V out I out = 1. ma to 1 ma V in = (V out +. V) to 6. V (2%) (+2%) V Output Voltage 1.3 V 1. V 1.8 V 2. V 2.8 V 3. V 3.3 V 3. V. V V out I out = 1. ma to 3 ma V in = (V out +. V) to 6. V (3%) (+3%) V Power Supply Ripple Rejection (Note 9) PSRR I out = 1. ma to 1 ma V in = V out + 1 V +. V pp f = 12 Hz f = 1. khz f = 1 khz db Line Regulation Reg line V in = 1.7 V to 6. V, I out = 1. ma 1. 1 mv Load Regulation Reg load I out = 1. ma to 1 ma I out = 1. ma to 3 ma mv 8. Performance guaranteed over the indicated operating temperature range by design and/or characterization, production tested at T J = T A = 2 C. Low duty cycle pulse techniques are used during testing to maintain the junction temperature as close to ambient as possible. 9. Values based on design and/or characterization. 3
4 NCP63 ELECTRICAL CHARACTERISTICS (V in = 1.7 V, V out = 1.2 V (adjustable version)), (V in = V out +. V (fixed version)), C in = C out =1. F, for typical values T A = 2 C, for min/max values T A = 4 C to C, unless otherwise specified.) (Note 1) Characteristic Symbol Test Conditions Min Typ Max Unit Output Noise Voltage (Note 11) V n f = 1 Hz to 1 khz V rms Output Short Circuit Current I sc 6 9 ma Dropout Voltage 1.3 V 1. V 1.8 V 2. V 2.7 V to. V V DO Measured at: V out 2.% I out = 1 ma mv Dropout Voltage 1.3 V 1. V 1.8 V 2. V 2.7 V to. V V DO Measured at: Vout 2.% I out = 3 ma mv Output Current Limit (Note 11) I out(max) 3 6 ma General Disable Current I DIS ENABLE = V, Vin = 6 V 4 C T A C Ground Current I GND ENABLE =.9 V, I out = 1. ma to 3 ma.1 1. A A Thermal Shutdown Temperature (Note 11) T SD 17 C Thermal Shutdown Hysteresis (Note 11) T SH 1 C ADJ Input Bias Current I ADJ.7.7 A Chip Enable ENABLE Input Threshold Voltage V th(en) V Voltage Increasing, Logic High.9 Voltage Decreasing, Logic Low.4 Enable Input Bias Current (Note 11) I EN 3. 1 na Timing Output Turn On Time (Note 11) 1.2 V to 3. V. V t EN ENABLE = V to Vin s 1.Performance guaranteed over the indicated operating temperature range by design and/or characterization, production tested at T J = T A = 2 C. Low duty cycle pulse techniques are used during testing to maintain the junction temperature as close to ambient as possible. 11. Values based on design and/or characterization. 4
5 NCP63 V IN 1 V OUT C IN 2 C OUT ENABLE 3 4 Figure 2. Typical Application Circuit for V out = 1.2 V (Adjustable Version) V IN 1 V OUT C IN 2 R1 C OUT ENABLE 3 4 R2 Figure 3. Typical Application Circuit for Adjustable V out V IN 1 V OUT C IN 2 C OUT 3 4 Figure 4. Typical Application Circuit (Fixed Voltage Version)
6 NCP63 TYPICAL CHARACTERISTICS I out = 1. ma I out = 1 ma V in = V out +. V V out = ADJ I out = 1. ma I out = 1 ma V in = 6. V V out = ADJ Figure. Output Voltage vs. Temperature (V in = V out +. V) Figure 6. Output Voltage vs. Temperature (V in = 6. V) I out = 1. ma I out = 1 ma I out = 1. ma I out = 1 ma Figure 7. Output Voltage vs. Temperature (1. V Fixed Output, V in = 2 V) Figure 8. Output Voltage vs. Temperature (1. V Fixed Output, V in = 6 V) I out = 1. ma I out = 1 ma I out = 1. ma I out = 1 ma Figure 9. Output Voltage vs. Temperature (3. V Fixed Output, V in = 3. V) Figure 1. Output Voltage vs. Temperature (3. V Fixed Output, V in = 6 V) 6 6
7 NCP63 TYPICAL CHARACTERISTICS I out = 1. ma I out = 1 ma I out = 1. ma I out = 1 ma Figure 11. Output Voltage vs. Temperature (. V Fixed Output, V in =. V) Figure 12. Output Voltage vs. Temperature (. V Fixed Output, V in = 6 V) V DO, DROPOUT VOLTAGE (mv) V out = ADJ I out = 1 ma I out = ma I out = 1. ma V DO, DROPOUT VOLTAGE (mv) I out = 1 ma 2 2 V out = 1.2 V 1. V 1.8 V 2.8 V 3. V. V Figure 13. Dropout Voltage vs. Temperature (Over Current Range) Figure 14. Dropout Voltage vs. Temperature (Over Output Voltage) I out = ma C out = 1. F T A = 2 C ENABLE = V in V V 3.3 V 2.8 V 1. V 1.8 V 1.2 V 6. ENABLE THRESHOLD (mv) Enable Increasing Enable Decreasing V in =. V 11 V in, INPUT VOLTAGE (V) Figure 1. Output Voltage vs. Input Voltage Figure 16. Enable Threshold vs. Temperature 7
8 NCP63 TYPICAL CHARACTERISTICS I out = 1. ma I DIS, DISABLE CURRENT ( A) ENABLE = V 11 I GND, GROUND CURRENT ( A) V out =. V V out = 1.2 V 2 ENABLE =.9 V I out = 1 ma I out = 1. ma I out = 1 ma Figure 17. Ground Current (Sleep Mode) vs. Temperature Figure 18. Ground Current (Run Mode) vs. Temperature I GND, GROUND CURRENT ( A) V 3. V 1 1. V 3.3 V. V V 1.2 V V in, INPUT VOLTAGE (V). Figure 19. Ground Current vs. Input Voltage 6. I GND, GROUND CURRENT ( A) I out, OUTPUT CURRENT (ma) V out = ADJ V in = 1.7 V Figure 2. Ground Current vs. Output Current 1 I ADJ, ADJ INPUT BIAS CURRENT (na) Figure 21. ADJ Input Bias Current vs. Temperature 12 8
9 NCP63 TYPICAL CHARACTERISTICS I SC, OUTPUT SHORT CIRCUIT CURRENT (ma) I out(max), CURRENT LIMIT (ma) V in, INPUT VOLTAGE (V). 6. Figure 22. Output Short Circuit Current vs. Temperature Figure 23. Current Limit vs. Input Voltage 4.. Reg line, LINE REGULATION (mv) V in = (V out +. V) to 6. V 1. I out = 1. ma I out = 1. ma to 1 ma Figure 24. Line Regulation vs. Temperature Reg load, LOAD REGULATION (mv) Figure 2. Load Regulation vs. Temperature 4 8 t EN, OUTPUT TURN ON TIME ( s) V 3. V 1. V 1.2 V (ADJ) PSRR (db) 1.2 V V. V V in = V out + 1. V 2 V ripple =. V pp 1 C out = 1. F I out = 1. ma to 1 ma f, FREQUENCY (khz) Figure 26. Output Turn On Time vs. Temperature Figure 27. Power Supply Ripple Rejection vs. Frequency 9
10 NCP63 TYPICAL CHARACTERISTICS OUTPUT CAPACITOR ESR ( ) V out =. V V out = 1.2 V Stable Region 7 1 I out, OUTPUT CURRENT (ma) Unstable Region C out = 1. F to 1 F T A = 4 C to C V in = up to 6. V Figure 28. Output Stability with Output Capacitor ESR over Output Current 1 V out = 1.2 V Figure 29. Load Transient Response (1. F) V out = 1.2 V Figure 3. Load Transient Response (1 F) 1
11 NCP63 DEFINITIONS Load Regulation The change in output voltage for a change in output load current at a constant temperature. Dropout Voltage The input/output differential at which the regulator output no longer maintains regulation against further reductions in input voltage. Measured when the output drops 2% below its nominal. The junction temperature, load current, and minimum input supply requirements affect the dropout level. Output Noise Voltage This is the integrated value of the output noise over a specified frequency range. Input voltage and output load current are kept constant during the measurement. Results are expressed in V rms or nv Hz. Ground Current Ground Current is the current that flows through the ground pin when the regulator operates without a load on its output (I GND ). This consists of internal IC operation, bias, etc. It is actually the difference between the input current (measured through the LDO input pin) and the output load current. If the regulator has an input pin that reduces its internal bias and shuts off the output (enable/disable function), this term is called the standby current (I STBY.) Line Regulation The change in output voltage for a change in input voltage. The measurement is made under conditions of low dissipation or by using pulse techniques such that the average junction temperature is not significantly affected. Line Transient Response Typical output voltage overshoot and undershoot response when the input voltage is excited with a given slope. Load Transient Response Typical output voltage overshoot and undershoot response when the output current is excited with a given slope between noload and fullload conditions. Thermal Protection Internal thermal shutdown circuitry is provided to protect the integrated circuit in the event that the maximum junction temperature is exceeded. When activated at typically 17 C, the regulator turns off. This feature is provided to prevent failures from accidental overheating. Maximum Package Power Dissipation The power dissipation level at which the junction temperature reaches its maximum operating value. APPLICATIONS INFORMATION The NCP63 series regulator is selfprotected with internal thermal shutdown and internal current limit. Typical application circuits are shown in Figures 2 and 3. Input Decoupling (C in ) A ceramic or tantalum 1. F capacitor is recommended and should be connected close to the NCP63 package. Higher capacitance and lower ESR will improve the overall line transient response. Output Decoupling (C out ) The NCP63 is a stable component and does not require a minimum Equivalent Series Resistance (ESR) for the output capacitor. The minimum output decoupling value is 1. F and can be augmented to fulfill stringent load transient requirements. The regulator works with ceramic chip capacitors as well as tantalum devices. Larger values improve noise rejection and load regulation transient response. Figure 28 shows the stability region for a range of operating conditions and ESR values. NoLoad Regulation Considerations The NCP63 adjustable regulator will operate properly under conditions where the only load current is through the resistor divider that sets the output voltage. However, in the case where the NCP63 is configured to provide a 1.2 V output, there is no resistor divider. If the part is enabled under noload conditions, leakage current through the pass transistor at junction temperatures above C can approach several microamperes, especially as junction temperature approaches 1 C. If this leakage current is not directed into a load, the output voltage will rise up to a level approximately 2 mv above nominal. The NCP63 contains an overshoot clamp circuit to improve transient response during a load current step release. When output voltage exceeds the nominal by approximately 2 mv, this circuit becomes active and clamps the output from further voltage increase. Tying the ENABLE pin to V in will ensure that the part is active whenever the supply voltage is present, thus guaranteeing that the clamp circuit is active whenever leakage current is present. When the NCP63 adjustable regulator is disabled, the overshoot clamp circuit becomes inactive and the pass transistor leakage will charge any capacitance on V out. If no load is present, the output can charge up to within a few millivolts of V in. In most applications, the load will present some impedance to V out such that the output voltage will be inherently clamped at a safe level. A minimum load of 1 A is recommended. 11
12 NCP63 Noise Decoupling The NCP63 is a low noise regulator and needs no external noise reduction capacitor. Unlike other low noise regulators which require an external capacitor and have slow startup times, the NCP63 operates without a noise reduction capacitor, has a typical 1 s start up delay and achieves a V rms overall noise level between 1 Hz and 1 khz. Enable Operation The enable pin will turn the regulator on or off. The threshold limits are covered in the electrical characteristics table in this data sheet. The turnon/turnoff transient voltage being supplied to the enable pin should exceed a slew rate of 1 mv/ s to ensure correct operation. If the enable function is not to be used then the pin should be connected to V in. Output Voltage Adjust The output voltage can be adjusted from 1 times (Figure 2) to 4 times (Figure 3) the typical 1.2 V regulation voltage via the use of resistors between the output and the ADJ input. The output voltage and resistors are chosen using Equation 1 and Equation 2. VOUT R1 R2 (I ADJ R1) (eq. 1) R1 R2 * [V out (IADJ *R1)] R2 V out (eq. 2) Input bias current I ADJ is typically less than 1 na. Choose R2 arbitrarily t minimize errors due to the bias current and to minimize noise contribution to the output voltage. Use Equation 2 to find the required value for R1. Thermal As power in the NCP63 increases, it might become necessary to provide some thermal relief. The maximum power dissipation supported by the device is dependent upon board design and layout. Mounting pad configuration on the PCB, the board material, and the ambient temperature affect the rate of junction temperature rise for the part. When the NCP63 has good thermal conductivity through the PCB, the junction temperature will be relatively low with high power applications. The maximum dissipation the NCP63 can handle is given by: PD(MAX) T J(MAX) TA R JA (eq. 3) Since T J is not recommended to exceed C (T J(MAX) ), then the NCP63 can dissipate up to 46 mw when the ambient temperature (T A ) is 2 C and the device is assembled on 1 oz PCB with 64 mm 2 area. The power dissipated by the NCP63 can be calculated from the following equations: PD VIN(IGND@IOUT) IOUT(VIN VOUT) (eq. 4) or VIN(MAX) P D(MAX) (VOUT IOUT) IOUT IGND (eq. ) Hints V in and GND printed circuit board traces should be as wide as possible. When the impedance of these traces is high, there is a chance to pick up noise or cause the regulator to malfunction. Place external components, especially the output capacitor, as close as possible to the NCP63, and make traces as short as possible. DEVICE ORDERING INFORMATION Device Marking Code Version Package Shipping* NCP63SNADJT1G AAU ADJ NCP63SN13T1G AAF 1.3 V NCP63SN1T1G AAV 1. V NCP63SN18T1G AAW 1.8 V NCP63SN2T1G ACL 2. V NCP63SN28T1G AAX 2.8 V NCP63SN3T1G AAY 3. V NCP63SN33T1G AAZ 3.3 V NCP63SNT1G AA2 3. V NCP63SNT1G AA3. V TSOP (PbFree) 3/Tape & Reel *For additional information on our PbFree strategy and soldering details, please download the ON Semiconductor Soldering and Mounting Techniques Reference Manual, SOLDERRM/D. 12
13 NCP63 PACKAGE DIMENSIONS 2X 2X NOTE.1 T.2 T L H G A B C D X.2 C A B T S SEATING PLANE.9.37 TSOP CASE 4832 ISSUE H J K DETAIL Z SOLDERING FOOTPRINT* M DETAIL Z NOTES: 1. DIMENSIONING AND TOLERANCING PER ASME Y14.M, CONTROLLING DIMENSION: MILLIMETERS. 3. MAXIMUM LEAD THICKNESS INCLUDES LEAD FINISH THICKNESS. MINIMUM LEAD THICKNESS IS THE MINIMUM THICKNESS OF BASE MATERIAL. 4. DIMENSIONS A AND B DO NOT INCLUDE MOLD FLASH, PROTRUSIONS, OR GATE BURRS.. OPTIONAL CONSTRUCTION: AN ADDITIONAL TRIMMED LEAD IS ALLOWED IN THIS LOCATION. TRIMMED LEAD NOT TO EXTEND MORE THAN.2 FROM BODY. MILLIMETERS DIM MIN MAX A 3. BSC B 1. BSC C D.2. G.9 BSC H.1.1 J.1.26 K.2.6 L M 1 S SCALE 1:1 mm inches *For additional information on our PbFree strategy and soldering details, please download the ON Semiconductor Soldering and Mounting Techniques Reference Manual, SOLDERRM/D. ON Semiconductor and are registered trademarks of Semiconductor Components Industries, LLC (SCILLC). SCILLC owns the rights to a number of patents, trademarks, copyrights, trade secrets, and other intellectual property. A listing of SCILLC s product/patent coverage may be accessed at SCILLC reserves the right to make changes without further notice to any products herein. SCILLC makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does SCILLC assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation special, consequential or incidental damages. Typical parameters which may be provided in SCILLC data sheets and/or specifications can and do vary in different applications and actual performance may vary over time. All operating parameters, including Typicals must be validated for each customer application by customer s technical experts. SCILLC does not convey any license under its patent rights nor the rights of others. SCILLC products are not designed, intended, or authorized for use as components in systems intended for surgical implant into the body, or other applications intended to support or sustain life, or for any other application in which the failure of the SCILLC product could create a situation where personal injury or death may occur. Should Buyer purchase or use SCILLC products for any such unintended or unauthorized application, Buyer shall indemnify and hold SCILLC and its officers, employees, subsidiaries, affiliates, and distributors harmless against all claims, costs, damages, and expenses, and reasonable attorney fees arising out of, directly or indirectly, any claim of personal injury or death associated with such unintended or unauthorized use, even if such claim alleges that SCILLC was negligent regarding the design or manufacture of the part. SCILLC is an Equal Opportunity/Affirmative Action Employer. This literature is subject to all applicable copyright laws and is not for resale in any manner. PUBLICATION ORDERING INFORMATION LITERATURE FULFILLMENT: Literature Distribution Center for ON Semiconductor P.O. Box 163, Denver, Colorado 8217 USA Phone: or Toll Free USA/Canada Fax: or Toll Free USA/Canada orderlit@onsemi.com N. American Technical Support: Toll Free USA/Canada Europe, Middle East and Africa Technical Support: Phone: Japan Customer Focus Center Phone: ON Semiconductor Website: Order Literature: For additional information, please contact your local Sales Representative NCP63/D
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