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ADM7160ACPZN1.8-R2

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ADM7160ACPZN1.8-R2

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Part Number ADM7160ACPZN1.8-R2
Manufacturer Analog Devices Inc.
Description IC REG LINEAR 200MA 6LFCSP
Datasheet ADM7160ACPZN1.8-R2 Datasheet
Package 6-UDFN Exposed Pad, CSP
In Stock 4,710 piece(s)
Unit Price $ 1.1918 *
Lead Time Can Ship Immediately
Estimated Delivery Time Jan 24 - Jan 29 (Choose Expedited Shipping)
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Part Number # ADM7160ACPZN1.8-R2 (PMIC - Voltage Regulators - Linear) is manufactured by Analog Devices Inc. and distributed by Heisener. Being one of the leading electronics distributors, we carry many kinds of electronic components from some of the world’s top class manufacturers. Their quality is guaranteed by its stringent quality control to meet all required standards.

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ADM7160ACPZN1.8-R2 Specifications

ManufacturerAnalog Devices Inc.
CategoryIntegrated Circuits (ICs) - PMIC - Voltage Regulators - Linear
Datasheet ADM7160ACPZN1.8-R2Datasheet
Package6-UDFN Exposed Pad, CSP
Series-
Output Configuration-
Output Type-
Number of Regulators1
Voltage - Input (Max)-
Voltage - Output (Min/Fixed)-
Voltage - Output (Max)-
Voltage Dropout (Max)-
Current - Output200mA
Current - Quiescent (Iq)-
Current - Supply (Max)-
PSRR-
Control Features-
Protection Features-
Operating Temperature-40°C ~ 125°C (TA)
Mounting TypeSurface Mount
Package / Case6-UDFN Exposed Pad, CSP
Supplier Device Package6-LFCSP-UD (2x2)

ADM7160ACPZN1.8-R2 Datasheet

Page 1

Page 2

Ultralow Noise, 200 mA Linear Regulator Data Sheet ADM7160 FEATURES PSRR performance of 54 dB at 100 kHz Ultralow noise independent of VOUT 3 µV rms, 0.1 Hz to 10 Hz 9.5 µV rms, 0.1 Hz to 100 kHz 9 µV rms, 10 Hz to 100 kHz 17 µV rms, 10 Hz to 1 MHz Low dropout voltage: 150 mV at 200 mA load Maximum output current: 200 mA Input voltage range: 2.2 V to 5.5 V Low quiescent and shutdown current Initial accuracy: ±1% Accuracy over line, load, and temperature: −2.5%/+1.5% 5-lead TSOT package and 6-lead LFCSP package APPLICATIONS ADC/DAC power supplies RF, VCO, and PLL power supplies Post dc-to-dc regulation APPLICATION CIRCUIT Figure 1. ADM7160 Powering a 16-Bit/18-Bit ADC GENERAL DESCRIPTION The ADM7160 is an ultralow noise, low dropout linear regulator that operates from 2.2 V to 5.5 V and provides up to 200 mA of output current. The low 150 mV dropout voltage at 200 mA load improves efficiency and allows operation over a wide input voltage range. Using an innovative circuit topology, the ADM7160 achieves ultralow noise performance without the need for a bypass capacitor, making the device ideal for noise-sensitive analog front-end and RF applications. The ADM7160 also achieves ultralow noise performance without compromising PSRR or transient line and load performance. Current-limit and thermal overload protection circuits prevent damage under adverse conditions. The ADM7160 also includes an internal pull-down resistor on the EN input. The ADM7160 is specifically designed for stable operation with tiny 1 µF, ±30% ceramic input and output capacitors to meet the requirements of high performance, space constrained applications. The ADM7160 is available in tiny 5-lead TSOT and 6-lead LFCSP packages with 16 fixed output voltage options, ranging from 1.1 V to 3.3 V. The LFCSP offers a very compact solution that provides excellent thermal performance for applications that require up to 200 mA of output current in a small, low profile footprint. 1 2 3 5 4 16-BIT/18-BIT ADC CIN 4.7µF COUT 4.7µF VOUT = 2.5VVIN = 2.9V VOUT NC VIN GND ADM7160 EN OFF ON 11 33 4- 10 1 NC = NO CONNECT VDD VDD IN+ IN– VREF DVDD DIGITAL OUTPUT 1.8V TO 5V 2.5V TO 5V 0V TO VREF Rev. A Document Feedback Information furnished by Analog Devices is believed to be accurate and reliable. However, no responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other rights of third parties that may result from its use. Specifications subject to change without notice. No license is granted by implication or otherwise under any patent or patent rights of Analog Devices. Trademarks and registered trademarks are the property of their respective owners. One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106, U.S.A. Tel: 781.329.4700 ©2013–2014 Analog Devices, Inc. All rights reserved. Technical Support www.analog.com

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ADM7160 Data Sheet TABLE OF CONTENTS Features .............................................................................................. 1 Applications ....................................................................................... 1 Application Circuit ........................................................................... 1 General Description ......................................................................... 1 Revision History ............................................................................... 2 Specifications ..................................................................................... 3 Input and Output Capacitors, Recommended Specifications ... 4 Absolute Maximum Ratings ............................................................ 5 Thermal Data ................................................................................ 5 Thermal Resistance ...................................................................... 5 ESD Caution .................................................................................. 5 Pin Configurations and Function Descriptions ........................... 6 Typical Performance Characteristics ..............................................7 Theory of Operation ...................................................................... 13 Enable Feature ............................................................................ 13 Soft Start ...................................................................................... 14 Current-Limit and Thermal Overload Protection ................. 14 Applications Information .............................................................. 15 Capacitor Selection .................................................................... 15 Thermal Considerations ............................................................ 16 PCB Layout Considerations ...................................................... 19 Typical Application Circuits ......................................................... 20 Outline Dimensions ....................................................................... 21 Ordering Guide .......................................................................... 22 REVISION HISTORY 4/14—Rev. 0 to Rev. A Changes to Ordering Guide .......................................................... 22 6/13—Revision 0: Initial Version Rev. A | Page 2 of 24

Page 4

Data Sheet ADM7160 SPECIFICATIONS VIN = (VOUT + 0.4 V) or 2.2 V, whichever is greater; EN = VIN, ILOAD = 10 mA, CIN = COUT = 1 µF, TA = 25°C, unless otherwise noted. Table 1. Parameter Symbol Test Conditions/Comments Min Typ Max Unit INPUT VOLTAGE RANGE VIN TJ = −40°C to +125°C 2.2 5.5 V OPERATING SUPPLY CURRENT IGND ILOAD = 0 µA 10 µA ILOAD = 0 µA, TJ = −40°C to +125°C 20 µA ILOAD = 100 µA 20 µA ILOAD = 100 µA, TJ = −40°C to +125°C 40 µA ILOAD = 10 mA 60 µA ILOAD = 10 mA, TJ = −40°C to +125°C 90 µA ILOAD = 200 mA 265 μA ILOAD = 200 mA, TJ = −40°C to +125°C 350 μA SHUTDOWN CURRENT IGND-SD EN = GND 0.2 µA EN = GND, TJ = −40°C to +125°C 1.0 µA OUTPUT VOLTAGE ACCURACY VOUT ILOAD = 10 mA −1 +1 % 100 µA < ILOAD < 200 mA, VIN = (VOUT + 0.4 V) to 5.5 V, TJ = −40°C to +125°C VOUT < 1.8 V −3 +2 % VOUT ≥ 1.8 V −2.5 +1.5 % TEMPERATURE COEFFICIENT TEMPCO VOUT = 2.5 V, TJ = 25°C to 85°C 29 ppm/°C LINE REGULATION ∆VOUT/∆VIN VIN = (VOUT + 0.4 V) to 5.5 V, TJ = −40°C to +125°C −0.05 +0.05 %/V LOAD REGULATION ∆VOUT/∆ILOAD VOUT < 1.8 V ILOAD = 100 µA to 200 mA 0.006 %/mA ILOAD = 100 µA to 200 mA, TJ = −40°C to +125°C 0.012 %/mA VOUT ≥ 1.8 V ILOAD = 100 µA to 200 mA 0.003 %/mA ILOAD = 100 µA to 200 mA, TJ = −40°C to +125°C 0.008 %/mA DROPOUT VOLTAGE1 VDROPOUT ILOAD = 10 mA 10 mV ILOAD = 10 mA, TJ = −40°C to +125°C 30 mV ILOAD = 200 mA 150 mV ILOAD = 200 mA, TJ = −40°C to +125°C 230 mV START-UP TIME2 tSTART-UP VOUT = 3.3 V 180 µs CURRENT-LIMIT THRESHOLD3 ILIMIT TJ = 0°C to 125°C 220 300 400 mA UNDERVOLTAGE LOCKOUT UVLO TJ = −40°C to +125°C Input Voltage Rising UVLORISE 1.96 V Input Voltage Falling UVLOFALL 1.28 V Hysteresis UVLOHYS 120 mV THERMAL SHUTDOWN Thermal Shutdown Threshold TSSD TJ rising 150 °C Thermal Shutdown Hysteresis TSSD-HYS 15 °C EN INPUT EN Input Logic High VIH 2.2 V ≤ VIN ≤ 5.5 V 1.2 V EN Input Logic Low VIL 2.2 V ≤ VIN ≤ 5.5 V 0.4 V EN Input Pull-Down Resistance REN VIN = VEN = 5.5 V 2.6 MΩ OUTPUT NOISE OUTNOISE VIN = 5 V, VOUT = 2.5 V 0.1 Hz to 10 Hz 3 µV rms 0.1 Hz to 100 kHz 9.5 µV rms 10 Hz to 100 kHz 9 µV rms 10 Hz to 1 MHz 17 µV rms Rev. A | Page 3 of 24

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ADM7160 Data Sheet Parameter Symbol Test Conditions/Comments Min Typ Max Unit POWER SUPPLY REJECTION RATIO PSRR ILOAD = 100 mA VIN = VOUT + 0.5 V 100 kHz, VIN = 3.8 V, VOUT = 3.3 V 49 dB 500 kHz, VIN = 3.8 V, VOUT = 3.3 V 43 dB 1 MHz, VIN = 3.8 V, VOUT = 3.3 V 43 dB 100 kHz, VIN = 3.0 V, VOUT = 2.5 V 46 dB 500 kHz, VIN = 3.0 V, VOUT = 2.5 V 44 dB 1 MHz, VIN = 3.0 V, VOUT = 2.5 V 44 dB VIN = VOUT + 1 V 100 kHz, VIN = 4.3 V, VOUT = 3.3 V 54 dB 500 kHz, VIN = 4.3 V, VOUT = 3.3 V 46 dB 1 MHz, VIN = 4.3 V, VOUT = 3.3 V 46 dB 100 kHz, VIN = 3.5 V, VOUT = 2.5 V 49 dB 500 kHz, VIN = 3.5 V, VOUT = 2.5 V 47 dB 1 MHz, VIN = 3.5 V, VOUT = 2.5 V 47 dB 1 Dropout voltage is defined as the input-to-output voltage differential when the input voltage is set to the nominal output voltage. This specification applies only to output voltages greater than 2.2 V. 2 Start-up time is defined as the time from the rising edge of EN to when VOUT is at 90% of its nominal value. 3 Current-limit threshold is defined as the current at which the output voltage falls to 90% of the specified typical value. For example, the current limit for a 3.0 V output voltage is defined as the current that causes the output voltage to fall to 90% of 3.0 V (that is, 2.7 V). INPUT AND OUTPUT CAPACITORS, RECOMMENDED SPECIFICATIONS TA = −40°C to +125°C. Table 2. Parameter Symbol Min Typ Max Unit Minimum Input and Output Capacitance1 CMIN 0.7 µF Capacitor ESR RESR 0.001 0.2 Ω 1 The minimum input and output capacitance should be greater than 0.7 μF over the full range of operating conditions. The full range of operating conditions in the application must be considered during device selection to ensure that the minimum capacitance specification is met. X7R and X5R type capacitors are recommended; Y5V and Z5U capacitors are not recommended for use with any LDO regulator. For more information, see the Input and Output Capacitor Properties section. Rev. A | Page 4 of 24

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Data Sheet ADM7160 ABSOLUTE MAXIMUM RATINGS Table 3. Parameter Rating VIN to GND −0.3 V to +6.5 V VOUT to GND −0.3 V to VIN EN to GND −0.3 V to +6.5 V Storage Temperature Range −65°C to +150°C Operating Junction Temperature Range −40°C to +125°C Operating Ambient Temperature Range −40°C to +125°C Soldering Conditions JEDEC J-STD-020 Stresses above those listed under Absolute Maximum Ratings may cause permanent damage to the device. This is a stress rating only; functional operation of the device at these or any other conditions above those indicated in the operational section of this specification is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability. THERMAL DATA Absolute maximum ratings apply individually only, not in combination. The ADM7160 can be damaged when the junc- tion temperature limits are exceeded. Monitoring ambient temperature does not guarantee that TJ is within the specified temperature limits. In applications with high power dissipation and poor PCB thermal resistance, the maximum ambient temperature may need to be derated. In applications with moderate power dissipation and low PCB thermal resistance, the maximum ambient temperature can exceed the maximum limit as long as the junction temperature is within the specification limits. The junction temperature (TJ) of the device is dependent on the ambient temperature (TA), the power dissipation of the device (PD), and the junction-to-ambient thermal resistance of the package (θJA). TJ is calculated using the following formula: TJ = TA + (PD × θJA) The junction-to-ambient thermal resistance (θJA) of the package is based on modeling and calculation using a 4-layer board. θJA is highly dependent on the application and board layout. In appli- cations where high maximum power dissipation exists, close attention to thermal board design is required. The value of θJA may vary, depending on PCB material, layout, and environmental conditions. The specified values of θJA are based on a 4-layer, 4 inch × 3 inch printed circuit board (PCB). See JEDEC JESD51-7 and JESD51-9 for detailed information about board construction. For more infor- mation about the LFCSP package, see the AN-772 Application Note, A Design and Manufacturing Guide for the Lead Frame Chip Scale Package (LFCSP). ΨJB is the junction-to-board thermal characterization parameter with units of °C/W. ΨJB of the package is based on modeling and calculation using a 4-layer board. JEDEC JESD51-12, Guidelines for Reporting and Using Electronic Package Thermal Information, states that thermal characterization parameters are not the same as thermal resistances. ΨJB measures the component power flowing through multiple thermal paths, rather than through a single path as in thermal resistance (θJB). Therefore, ΨJB thermal paths include convection from the top of the package, as well as radiation from the package, factors that make ΨJB more useful in real-world applications. Maximum junction temperature (TJ) is calculated from the board temperature (TB) and the power dissipation (PD) using the following formula: TJ = TB + (PD × ΨJB) See JEDEC JESD51-8 and JESD51-12 for more detailed infor- mation about ΨJB. THERMAL RESISTANCE θJA and ΨJB are specified for the worst-case conditions, that is, a device soldered in a circuit board for surface-mount packages. Table 4. Thermal Resistance Package Type θJA ΨJB Unit 5-Lead TSOT 170 43 °C/W 6-Lead LFCSP 63.6 28.3 °C/W ESD CAUTION Rev. A | Page 5 of 24

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ADM7160 Data Sheet Rev. A | Page 6 of 24 PIN CONFIGURATIONS AND FUNCTION DESCRIPTIONS Figure 2. Pin Configuration, 5-Lead TSOT Figure 3. Pin Configuration, 6-Lead LFCSP Table 5. Pin Function Descriptions Pin No. Mnemonic Description TSOT LFCSP 1 6 VIN Regulator Input Supply. Bypass VIN to GND with a 1 μF or greater capacitor. 2 3 GND Ground. 3 4 EN Enable Input. Drive EN high to turn on the regulator; drive EN low to turn off the regulator. For automatic startup, connect EN to VIN. 4 2, 5 NC No Connect. Do not connect to this pin. 5 1 VOUT Regulated Output Voltage. Bypass VOUT to GND with a 1 μF or greater capacitor. N/A 7 EPAD Exposed Pad. The exposed pad must be connected to ground. The exposed pad enhances the thermal performance of the package. NOTES 1. NC = NO CONNECT. DO NOT CONNECT TO THIS PIN. ADM7160 TOP VIEW (Not to Scale) 1VIN 2GND 3EN 5 VOUT 4 NC 11 33 4- 00 3 3 7 GND 1VOUT NOTES 1. NC = NO CONNECT. DO NOT CONNECT TO THIS PIN. 2. THE EXPOSED PAD MUST BE CONNECTED TO GROUND. THE EXPOSED PAD ENHANCES THE THERMAL PERFORMANCE OF THE PACKAGE. 2NC 4 ENEPAD 6 VIN 5 NC 11 33 4- 00 4 ADM7160 TOP VIEW

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Data Sheet ADM7160 TYPICAL PERFORMANCE CHARACTERISTICS VIN = 2.9 V, VOUT = 2.5 V, ILOAD = 1 mA, CIN = COUT = 4.7 µF, TA = 25°C, unless otherwise noted. Figure 4. Noise Spectral Density at Various Output Voltages, ILOAD = 10 mA Figure 5. Noise Spectral Density at Various Output Voltages, ILOAD = 200 mA Figure 6. Noise Spectral Density, 0.1 Hz to 1 kHz Figure 7. RMS Noise vs. Load Current, 10 Hz to 100 kHz Figure 8. RMS Noise vs. Load Current, 10 Hz to 1 MHz 0.1 1 10 100 1k 10 100 1k 10k 100k 1M NS D (n V/ √H z) FREQUENCY (Hz) 113 34 -0 05 VOUT = 3.3V VOUT = 2.5V VOUT = 1.8V NOISE FLOOR 0.1 1 10 100 1k 10 100 1k 10k 100k 1M NS D (n V/ √H z) FREQUENCY (Hz) 113 34 -0 06 VOUT = 3.3V VOUT = 2.5V VOUT = 1.8V NOISE FLOOR 1 10 100 1k 10k 0.1 1 10 100 1k N SD (n V/ √H z) FREQUENCY (Hz) 113 34 -1 03 1 10 100 0.01 0.1 1 10 100 1000 NO IS E (µ V rm s) ILOAD (mA) VOUT = 3.3V VOUT = 2.5V VOUT = 1.8V 11 33 4- 00 7 1 10 100 0.01 0.1 1 10 100 1000 NO IS E (µ V rm s) ILOAD (mA) VOUT = 3.3V VOUT = 2.5V VOUT = 1.8V 11 33 4- 00 8 Rev. A | Page 7 of 24

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ADM7160 Data Sheet Figure 9. PSRR vs. Frequency and Load Current, 500 mV Headroom, VOUT = 3.3 V Figure 10. PSRR vs. Frequency and Load Current, 500 mV Headroom, VOUT = 2.5 V Figure 11. PSRR vs. Frequency and Load Current, 500 mV Headroom, VOUT = 1.8 V Figure 12. PSRR vs. Frequency and Load Current, 1 V Headroom, VOUT = 3.3 V Figure 13. PSRR vs. Frequency and Load Current, 1 V Headroom, VOUT = 2.5 V Figure 14. PSRR vs. Frequency and Load Current, 1 V Headroom, VOUT = 1.8 V –100 –90 –80 –70 –60 –50 –40 –30 –20 –10 0 10 100 1k 10k 100k 1M 10M PS RR (d B) FREQUENCY (Hz) 113 34 -0 13 ILOAD = 200mA ILOAD = 100mA ILOAD = 50mA ILOAD = 10mA ILOAD = 1mA –100 –90 –80 –70 –60 –50 –40 –30 –20 –10 0 10 100 1k 10k 100k 1M 10M PS RR (d B) FREQUENCY (Hz) 113 34 -0 10 ILOAD = 200mA ILOAD = 100mA ILOAD = 50mA ILOAD = 10mA ILOAD = 1mA –100 –90 –80 –70 –60 –50 –40 –30 –20 –10 0 10 100 1k 10k 100k 1M 10M PS RR (d B) FREQUENCY (Hz) 113 34 -0 16 ILOAD = 200mA ILOAD = 100mA ILOAD = 50mA ILOAD = 10mA ILOAD = 1mA –100 –90 –80 –70 –60 –50 –40 –30 –20 –10 0 10 100 1k 10k 100k 1M 10M PS RR (d B) FREQUENCY (Hz) 113 34 -0 12 ILOAD = 200mA ILOAD = 100mA ILOAD = 50mA ILOAD = 10mA ILOAD = 1mA –100 –90 –80 –70 –60 –50 –40 –30 –20 –10 0 10 100 1k 10k 100k 1M 10M PS RR (d B) FREQUENCY (Hz) 113 34 -0 09 ILOAD = 200mA ILOAD = 100mA ILOAD = 50mA ILOAD = 10mA ILOAD = 1mA –100 –90 –80 –70 –60 –50 –40 –30 –20 –10 0 10 100 1k 10k 100k 1M 10M PS RR (d B) FREQUENCY (Hz) 113 34 -0 15 ILOAD = 200mA ILOAD = 100mA ILOAD = 50mA ILOAD = 10mA ILOAD = 1mA Rev. A | Page 8 of 24

Page 10

Data Sheet ADM7160 Figure 15. PSRR vs. Frequency and Load Current, 300 mV Headroom, VOUT = 3.3 V Figure 16. PSRR vs. Frequency and Load Current, 300 mV Headroom, VOUT = 2.5 V Figure 17. PSRR vs. Headroom Voltage at Various Frequencies, ILOAD = 200 mA Figure 18. PSRR vs. Headroom Voltage at Various Frequencies, ILOAD = 100 mA Figure 19. PSRR vs. Headroom Voltage at Various Frequencies, ILOAD = 50 mA Figure 20. PSRR vs. Headroom Voltage at Various Frequencies, ILOAD = 10 mA –100 –90 –80 –70 –60 –50 –40 –30 –20 –10 0 10 100 1k 10k 100k 1M 10M PS RR (d B) FREQUENCY (Hz) 113 34 -0 14 ILOAD = 200mA ILOAD = 100mA ILOAD = 50mA ILOAD = 10mA ILOAD = 1mA –100 –90 –80 –70 –60 –50 –40 –30 –20 –10 0 10 100 1k 10k 100k 1M 10M PS RR (d B) FREQUENCY (Hz) 113 34 -0 11 ILOAD = 200mA ILOAD = 100mA ILOAD = 50mA ILOAD = 10mA ILOAD = 1mA –80 –70 –60 –50 –40 –30 –20 –10 0 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 HEADROOM VOLTAGE (V) PS R R (d B ) 1kHz 10kHz 100kHz 500kHz 1MHz 11 33 4- 01 7 –80 –70 –60 –50 –40 –30 –20 –10 0 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 HEADROOM VOLTAGE (V) PS R R (d B ) 1kHz 10kHz 100kHz 500kHz 1MHz 11 33 4- 01 8 –80 –70 –60 –50 –40 –30 –20 –10 0 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 HEADROOM VOLTAGE (V) PS R R (d B ) 1kHz 10kHz 100kHz 500kHz 1MHz 11 33 4- 01 9 –80 –70 –60 –50 –40 –30 –20 –10 0 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 HEADROOM VOLTAGE (V) PS R R (d B ) 1kHz 10kHz 100kHz 500kHz 1MHz 11 33 4- 02 0 Rev. A | Page 9 of 24

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