ADP2504-4.5-EVALZ Analog Devices Inc, ADP2504-4.5-EVALZ Datasheet
ADP2504-4.5-EVALZ
Specifications of ADP2504-4.5-EVALZ
Related parts for ADP2504-4.5-EVALZ
ADP2504-4.5-EVALZ Summary of contents
Page 1
... Input voltage: 2 5.5 V Fixed output voltage: 2 5.0 V Adjustable model output voltage range: 2 5.5 V 600 mA (ADP2503) and 1000 mA (ADP2504) output options Boost converter configuration with load disconnect SYNC pin with three different modes Power save mode (PSM) for improved light load efficiency ...
Page 2
... ADP2503/ADP2504 TABLE OF CONTENTS Features .............................................................................................. 1 Applications ....................................................................................... 1 General Description ......................................................................... 1 Typical Application Circuit ............................................................. 1 Revision History ............................................................................... 2 Specifications ..................................................................................... 3 Absolute Maximum Ratings ............................................................ 4 Thermal Data ................................................................................ 4 Thermal Resistance ...................................................................... 4 ESD Caution .................................................................................. 4 Pin Configuration and Function Descriptions ............................. 5 Typical Performance Characteristics ............................................. 6 Theory of Operation ...................................................................... 11 Power Save Mode ........................................................................ 11 REVISION HISTORY 8/09—Rev Rev. A Changes to Features Section, Figure 1, and General Description Section ...
Page 3
... All limits at temperature extremes are guaranteed via correlation using standard statistical quality control (SQC). Conditions V rising IN V falling IN ADP2503/ADP2504 adjustable output (PWM operation, no load) ADP2503/ADP2504 fixed output (PWM operation, no load 2 3 500 mA, forced PWM mode IN LOAD 500 mA, forced PWM mode ...
Page 4
... THERMAL DATA Absolute maximum ratings apply individually only, not in combination. The ADP2503/ADP2504 can be damaged when the junction temperature limits are exceeded. Monitoring ambient tempera- ture (T ) does not guarantee that the junction temperature ( within the specified temperature limits ...
Page 5
... Power Input. This the input to the buck-boost power switches. Place a 10 μF capacitor between PVIN and PGND as close as possible to the ADP2503/ADP2504 Enable. Drive EN high to turn on the ADP2503/ADP2504. Bring EN low to put the part into shutdown mode. 7 SYNC The SYNC pin permits the ADP2503/ADP2504 to operate in three different modes. ...
Page 6
... INPUT VOLTAGE (V) Figure 3. ADP2503 Output Current vs. Input Voltage 1100 1000 900 800 700 600 500 400 300 200 100 0 2.3 2.8 3.3 3.8 INPUT VOLTAGE (V) Figure 4. ADP2504 Output Current vs. Input Voltage 100 0.001 0.01 I (A) OUT Figure 5. Efficiency vs. Output Current, PWM Mode ( ...
Page 7
... V) Figure 13. Frequency vs. Input Voltage Over Temperature (V OUT 4.8 5.3 = 3.3 V) OUT Rev Page ADP2503/ADP2504 0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 I (A) OUT Figure 12. Load Regulation ( OUT –40°C +25°C +85°C 2.3 2.7 3.1 3.5 3 ...
Page 8
... ADP2503/ADP2504 SW1 4 SW2 OUT CH1 50.0mV CH2 1.00V M40.0µ CH3 5.00V CH4 5.00V T 18.20 Figure 15. Line Transient, PWM Mode ( OUT IN SW1 4 SW2 OUT 1 B CH1 50.0mV B M40.0µs CH2 1.00V CH3 5.00V CH4 5.00V T 18.20 Figure 16. Line Transient, PWM Mode ( ...
Page 9
... Figure 24. Typical PWM Switching Waveform, Buck-Boost Operation = 3.3 V) OUT 3.3V OUT A CH3 2.40V Figure 25. Typical PSM Switching Waveform, Buck-Boost Operation = 3.3 V) OUT 3.3V OUT A CH4 2.40V = 3.3 V) OUT Rev Page ADP2503/ADP2504 3.3V OUT SW2 3 SW1 OUT 1 B CH1 20.0mV CH2 250mA Ω M 400ns A CH4 ...
Page 10
... ADP2503/ADP2504 SW1 4 V OUT CH1 2.00V CH2 500mAΩ M 100µ 9.400 CH3 5.00V CH4 5.00V W W Figure 27. Startup into PWM Mode (V OUT V = 3.3V OUT A CH3 2.40V = 3 mA) OUT Rev Page SW1 4 V OUT V OUT CH1 2.00V CH2 500mAΩ M 100µs ...
Page 11
... POWER SAVE MODE When the SYNC pin is low, the ADP2503/ADP2504 can operate in power save mode (PSM). In this mode, when the load current becomes less than 75 mA nominally at V ler pulls up V ...
Page 12
... SHORT-CIRCUIT PROTECTION When the nominal inductor peak current value of 1 reached, the ADP2503/ADP2504 first switch off the NMOS2 transistor active. If the current thereafter continues to increase by an extra amount of 200 mA, the PMOS1 transistor is also switched off. This operation is reversible when the short circuit stops ...
Page 13
... If the ADP2503/ADP2504 are operating in buck mode, the worst-case voltage ripple occurs for the highest input voltage the ADP2503/ADP2504 are operating in boost mode, the IN worst-case voltage ripple occurs for the lowest input voltage, V The maximum voltage overshoot, or undershoot, is inversely proportional to the value of the output capacitor. To ensure stability and excellent transient response recommended to use a minimum of 22 μ ...
Page 14
... V 60 2.3V TO 5.5V Dimensions L × W × H (mm) 10µF 1.6 × 0.8 × 0.8 1.6 × 0.8 × 0.8 Figure 30. Typical Application Circuit for the Adjustable ADP2503/ADP2504 Rev Page k k 1.5µH SW1 SW2 ...
Page 15
... Place the inductor, input capacitor, and output capacitor close to the IC using short tracks. These components carry high switching frequencies and large tracks act like antennas. Figure 31. ADP2503/ADP2504 Evaluation Board for Fixed Output Voltages Route the output voltage path away from the inductor and SW node to minimize noise and magnetic interference. ...
Page 16
... ADP2504ACPZ-3.3-R7 3 ADP2504ACPZ-3.5-R7 3 ADP2504ACPZ-4.2-R7 4 ADP2504ACPZ-4.5-R7 4 ADP2504ACPZ-5.0- ADP2504ACPZ-R7 Adj ADP2503CPZ-REDYKIT 2 ADP2504CPZ-REDYKIT RoHS Compliant Part. 2 Redykit contains two evaluation boards with the stated output voltages plus three devices of each available fixed output voltage. ©2008–2009 Analog Devices, Inc. All rights reserved. Trademarks and registered trademarks are the property of their respective owners ...