YNM05S05-G POWER ONE, YNM05S05-G Datasheet

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YNM05S05-G

Manufacturer Part Number
YNM05S05-G
Description
Module DC-DC 1-OUT 0.7525V to 3.63V 5A 5-Pin SMD T/R
Manufacturer
POWER ONE
Type
Step Downr
Datasheet
1.YNM05S05.pdf (25 pages)

Specifications of YNM05S05-G

Package
5SMD
Output Current
5 A
Output Voltage
0.7525 to 3.63 V
Input Voltage
5 V
Number Of Outputs
1
Switching Regulator
Yes

Available stocks

Company
Part Number
Manufacturer
Quantity
Price
Company:
Bonase Electronics (HK) Co., Limited Bonase Electronics (HK) Co., Limited
Part Number:
YNM05S05-G
Manufacturer:
PowerOne
Quantity:
1
The YNM05S05 is not recommended
for new designs and has been
replaced by the YM05S05. Please
refer to the YM05S05 data sheet for
new product specifications.
Applications
 Intermediate Bus Architectures
 Telecommunications
 Data communications
 Distributed Power Architectures
 Servers, Workstations
Benefits
 High efficiency – no heat sink required
 Reduces Total Solution Board Area
 Tape and Reel packing
 Compatible with Pick & Place Equipment
 Minimizes Part Numbers in Inventory
Description
Power-One’s point-of-load converters are recommended for use with regulated bus converters in an Intermediate
Bus Architecture (IBA). The YNM05S05 non-isolated DC-DC converters deliver up to 5 A of output current in an
industry-standard surface-mount package. Operating from a 3.0 – 5.5 V input, the YNM05S05 converters are
ideal choices for Intermediate Bus Architectures where Point-of-Load (POL) power delivery is generally a
requirement. The converters provide an extremely tight regulated programmable output voltage from 0.7525 V to
3.63 V.
The Y-Series of converters provide exceptional thermal performance, even in high temperature environments with
minimal airflow. No derating is required up to 85 C, even without airflow at natural convection. This performance
is accomplished through the use of advanced circuitry, packaging and processing techniques to achieve a design
possessing ultra-high efficiency, excellent thermal management, and a very low-body profile.
The low-body profile and the preclusion of heat sinks minimize impedance to system airflow, thus enhancing
cooling for both upstream and downstream devices. The use of 100% automation for assembly, coupled with
advanced power electronics and thermal design, results in a product with extremely high reliability.
MCD10190 Rev. 1.0, 21-Jun-10
3.0-5.5 VDC Input; 0.7525-3.63 VDC Programmable @ 5 A
Page 1 of 25
YNM05S05 DC-DC Converter Data Sheet
Features
 RoHS lead-free solder and lead-solder-exempted
 Delivers up to 5 A
 No derating up to 85 C
 Surface-Mount package
 Industry-standard footprint and pinout
 Small size and low profile: 0.80” x 0.45” x 0.247”
 Weight: 0.08 oz [2.22 g]
 Coplanarity less than 0.003”, maximum
 Synchronous Buck Converter Topology
 Start up into pre-biased output
 No minimum load required
 Programmable output voltage via external resistor
 Operating ambient temperature: -40 °C to 85 °C
 Remote ON/OFF
 Fixed frequency operation
 Auto-reset output overcurrent protection
 Auto-reset overtemperature protection
 High reliability, MTBF approx. 69 Million Hours
 All materials meet UL94, V-0 flammability rating
 UL60950 recognition in U.S. & Canada, and DEMKO
The
products are available
calculated per Telcordia TR-332, Method I Case 1
(20.32 mm x 11.43 mm x 6.27 mm)
certification per IEC/EN60950
www.power-one.com
Products: Y-Series

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YNM05S05-G Summary of contents

Page 1

... Description Power-One’s point-of-load converters are recommended for use with regulated bus converters in an Intermediate Bus Architecture (IBA). The YNM05S05 non-isolated DC-DC converters deliver output current in an industry-standard surface-mount package. Operating from a 3.0 – 5.5 V input, the YNM05S05 converters are ideal choices for Intermediate Bus Architectures where Point-of-Load (POL) power delivery is generally a requirement ...

Page 2

... The output voltage should not exceed 3. Note that startup time is the sum of turn-on delay time and rise time. 3. The converter ON/OFF pin is left open. MCD10190 Rev. 1.0, 21-Jun-10 YNM05S05 DC-DC Converter Data Sheet Notes Continuous By external resistor, See Trim Table 1 Full resistive load From Vin = Vin(min ...

Page 3

... V = 3.0 VDC OUT Input Standby Current (Converter disabled) Input No Load Current (Converter enabled) i Input Reflected-Ripple Current - s MCD10190 Rev. 1.0, 21-Jun-10 YNM05S05 DC-DC Converter Data Sheet Notes For Vout  2.5 V For Vout  2 3.3 VDC OUT V = 2.5 VDC OUT V = 2.0 VDC ...

Page 4

... OUT Efficiency Additional Notes: 1. Trim resistor connected across the GND and TRIM pins of the converter. MCD10190 Rev. 1.0, 21-Jun-10 YNM05S05 DC-DC Converter Data Sheet Notes Vin = 3.0 V – 5.5 V, Full resistive load From no load to full load Over line, load and temperature ...

Page 5

... They should be placed as close as possible to the input pins of the converter. The YNM05S05 has been designed for stable operation with or without external capacitance. Low ESR ceramic capacitors placed as close as possible to the load (minimum 47 F) are recommended for µ ...

Page 6

... MCD10190 Rev. 1.0, 21-Jun-10 YNM05S05 DC-DC Converter Data Sheet The output voltage can also be programmed by an external voltage source. To make trimming less sensitive, recommended between the TRIM pin and the programming voltage source. Control Voltage can be calculated by the formula:  ...

Page 7

... The two inner layers, comprised of two-ounce copper, were used to provide traces for connectivity to the converter. MCD10190 Rev. 1.0, 21-Jun-10 YNM05S05 DC-DC Converter Data Sheet The lack of metalization on the outer layers as well as the limited thermal connection ensured that heat under ...

Page 8

... IN DC/ 47F Converter ceramic Vsource capacitor GND GND Fig. F: Test Setup for measuring input reflected-ripple currents, i and output voltage ripple. s MCD10190 Rev. 1.0, 21-Jun-10 YNM05S05 DC-DC Converter Data Sheet F ceramic µ 1 ceramic Vout 47F capacitor ceramic capacitor Page www.power-one.com ...

Page 9

... Load Current [Adc] Fig. 3.3V.3: Efficiency vs. load current and input voltage for Vout = 3.3 V converter mounted vertically with air flowing from pin 5 to pin rate of 200 LFM (1 m/s) and C. MCD10190 Rev. 1.0, 21-Jun-10 YNM05S05 DC-DC Converter Data Sheet Fig. 3.3V.2: Available load current vs. ambient temperature and airflow rates for Vout = 3 ...

Page 10

... Bottom trace: load current (2 A/div.). µF ceramic + 1 µF ceramic. Time scale: 20 µs/div. MCD10190 Rev. 1.0, 21-Jun-10 YNM05S05 DC-DC Converter Data Sheet Fig. 3.3V.6: Output voltage ripple (20 mV/div.) at full rated load current into a resistive load with external capacitance 10 µF ceramic + 1 µF ceramic and Vin = 5 V for Vout = 3.3 V. ...

Page 11

... Load Current [Adc] Fig. 2.5V.3: Efficiency vs. load current and input voltage for Vout = 2.5 V converter mounted vertically with air flowing from pin 5 to pin rate of 200 LFM (1 m/s) and C. MCD10190 Rev. 1.0, 21-Jun-10 YNM05S05 DC-DC Converter Data Sheet Fig. 2.5V.2: Available load current vs. ambient temperature ...

Page 12

... Bottom trace: load current (2 A/div.). µF ceramic + 1 µF ceramic. Time scale: 20 µs/div. MCD10190 Rev. 1.0, 21-Jun-10 YNM05S05 DC-DC Converter Data Sheet Fig. 2.5V.5: Output voltage ripple (20 mV/div.) at full rated load current into a resistive load with external capacitance 10 µF ceramic + 1 µF ceramic and Vin = 5 V for Vout = 2.5 V. ...

Page 13

... Load Current [Adc] Fig. 2.0V.3: Efficiency vs. load current and input voltage for Vout = 2.0 V converter mounted vertically with air flowing from pin 5 to pin rate of 200 LFM (1 m/s) and C. MCD10190 Rev. 1.0, 21-Jun-10 YNM05S05 DC-DC Converter Data Sheet Fig. 2.0V.2: Available load current vs. ambient temperature and airflow rates for Vout = 2 ...

Page 14

... Bottom trace: load current (2 A/div.). µF ceramic + 1 µF ceramic. Time scale: 20 µs/div. MCD10190 Rev. 1.0, 21-Jun-10 YNM05S05 DC-DC Converter Data Sheet Fig. 2.0V.6: Output voltage ripple (20 mV/div.) at full rated load current into a resistive load with external capacitance 10 µF ceramic + 1 µF ceramic and Vin = 5 V for Vout = 2.0 V. ...

Page 15

... Load Current [Adc] Fig. 1.8V.3: Efficiency vs. load current and input voltage for Vout = 1.8 V converter mounted vertically with air flowing from pin 5 to pin rate of 200 LFM (1 m/s) and C. MCD10190 Rev. 1.0, 21-Jun-10 YNM05S05 DC-DC Converter Data Sheet Fig. 1.8V.2: Available load current vs. ambient temperature and airflow rates for Vout = 1 ...

Page 16

... Bottom trace: load current (2 A/div.). µF ceramic + 1 µF ceramic. Time scale: 20 µs/div. MCD10190 Rev. 1.0, 21-Jun-10 YNM05S05 DC-DC Converter Data Sheet Fig. 1.8V.6: Output voltage ripple (20 mV/div.) at full rated load current into a resistive load with external capacitance 10 µF ceramic + 1 µF ceramic and Vin = 5 V for Vout = 1.8 V. ...

Page 17

... Load Current [Adc] Fig. 1.5V.3: Efficiency vs. load current and input voltage for Vout = 1.5 V converter mounted vertically with air flowing from pin 5 to pin rate of 200 LFM (1 m/s) and C. MCD10190 Rev. 1.0, 21-Jun-10 YNM05S05 DC-DC Converter Data Sheet Fig. 1.5V.2: Available load current vs. ambient temperature and airflow rates for Vout = 1 ...

Page 18

... Bottom trace: load current (2 A/div.). µF ceramic + 1 µF ceramic. Time scale: 20 µs/div. MCD10190 Rev. 1.0, 21-Jun-10 YNM05S05 DC-DC Converter Data Sheet Fig. 1.5V.6: Output voltage ripple (20 mV/div.) at full rated load current into a resistive load with external capacitance 10 µF ceramic + 1 µF ceramic and Vin = 5 V for Vout = 1.5 V. ...

Page 19

... Load Current [Adc] Fig. 1.2V.3: Efficiency vs. load current and input voltage for Vout = 1.2 V converter mounted vertically with air flowing from pin 5 to pin rate of 200 LFM (1 m/s) and C. MCD10190 Rev. 1.0, 21-Jun-10 YNM05S05 DC-DC Converter Data Sheet Fig. 1.2V.2: Available load current vs. ambient temperature and airflow rates for Vout = 1 ...

Page 20

... Bottom trace: load current (2 A/div.). µF ceramic + 1 µF ceramic. Time scale: 20 µs/div. MCD10190 Rev. 1.0, 21-Jun-10 YNM05S05 DC-DC Converter Data Sheet Fig. 1.2V.6: Output voltage ripple (20 mV/div.) at full rated load current into a resistive load with external capacitance 10 µF ceramic + 1 µF ceramic and Vin = 5 V for Vout = 1.2 V. ...

Page 21

... Load Current [Adc] Fig. 1.0V.3: Efficiency vs. load current and input voltage for Vout = 1.0 V converter mounted vertically with air flowing from pin 5 to pin rate of 200 LFM (1 m/s) and C. MCD10190 Rev. 1.0, 21-Jun-10 YNM05S05 DC-DC Converter Data Sheet Fig. 1.0V.2: Available load current vs. ambient temperature and airflow rates for Vout = 1 ...

Page 22

... Bottom trace: load current (2 A/div.). µF ceramic + 1 µF ceramic. Time scale: 20 µs/div. MCD10190 Rev. 1.0, 21-Jun-10 YNM05S05 DC-DC Converter Data Sheet Fig. 1.0V.6: Output voltage ripple (20 mV/div.) at full rated load current into a resistive load with external capacitance 10 µF ceramic + 1 µF ceramic and Vin = 5 V for Vout = 1.0 V. ...

Page 23

... Load Current [Adc] Fig. 0.7525V.3: Efficiency vs. load current and input voltage for Vout = 0.7525 V converter mounted vertically with air flowing from pin 5 to pin rate of 200 LFM (1 m/s) and C. MCD10190 Rev. 1.0, 21-Jun-10 YNM05S05 DC-DC Converter Data Sheet vs. ...

Page 24

... Bottom trace: load current (2 A/div.). µF ceramic + 1 µF ceramic. Time scale: 20 µs/div. MCD10190 Rev. 1.0, 21-Jun-10 YNM05S05 DC-DC Converter Data Sheet Fig. 0.7525V.5: Output voltage ripple (20 mV/div.) at full rated load current into a resistive load with external capacitance 10 µF ceramic + 1 µF ceramic and Vin = 5 V for Vout = 0.7525 V. Time scale: 2 µ ...

Page 25

... Y-Series 3.0 – 5.5 V The example above describes P/N YNM05S05: 3.0 – 5.5 V input, surface-mount 0.7525 V to 3.63 V output, and Eutectic Tin/Lead solder. Please consult factory for the complete list of available options. The YNM05S05 is not recommended for new designs and has been replaced by the YM05S05 ...

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