Delivering Next Generation Technology
Series
FPMR05SR7506*A
2.4-5.5Vdc Input, 6A, 0.7525-3.63Vdc Output
The
Series of non-isolated dc-dc converters
deliver
exceptional
electrical
and
thermal
performance in industry-standard footprints for
Point-of-Load converters. Operating from a
2.4Vdc-5.5Vdc input, these are the converters of
choice for Intermediate Bus Architecture (IBA) and
Distributed Power Architecture applications that
require high efficiency, tight regulation, and high
reliability in elevated temperature environments with
low airflow.
非絶縁型DC/DC½ンバ½タの
½リ½½½゙は業界標準のPOL½ンバ½タ
と同じ端子配列で極めて優れた電気的特性、及び温度特性を提供しま
す。
入力電圧2.4V-5.5Vで動½しますので、この½ンバ½タは、高効率、高い出
力電圧精度、高温、及び風量の少ない環境での高信頼性が要求される
IBA、又はDPAでの½用に最適です。
FPMR05SR7506*A
Features
•
RoHS compliant
RoHS準拠
•
Delivers up to 6A (21.78W)
6A (21.78W)まで供給可½
The
FPMR05SR7506*A
converter of the
Series delivers 6A of output current at a tightly
regulated programmable output voltage of 0.7525Vdc
to 3.63Vdc. The thermal performance of the
FPMR05SR7506*A
is best-in-class: No derating is
needed up to 85℃, under natural convection.
½ リ ½ ½½ ゙ の FPMR05SR7506*A は高 い 電 圧 精 度 で0.7525V ½
3.63Vの可変を実現します。FPMR05SR7506*Aの温度特性は½ラ½½最高
レベルです。自然対流条件で85℃までデ½レ½テ½ン½゙を必要としません。
•
High efficiency, no heatsink required
高効率-放熱器が不要
•
Negative and Positive ON/OFF logic
ON/OFFロ½゙½½はネ½゙テ½ブとポ½゙テ½ブ
•
Industry-standard SMD footprint
業界標準のSMDフ½トプリント
This leading edge thermal performance results from
electrical, thermal and packaging design that is
optimized for high density circuit card conditions.
Extremely high quality and reliability are achieved
through advanced circuit and thermal design
techniques and FDK’s state of the art in-house
manufacturing processes and systems.
回路設計、放熱設計、及びパ½½½½゙ン½゙設計の結果である最先端の温
度特性は、高密度実装回路用に最適化されています。非常に優れた品
質と信頼性は高度な回路設計、温度設計技術、及びFDKの最先端の
自社½造プロ½½½によりもたらされます。
•
Small size and low profile: 0.80” x 0.45” x 0.211”
nominal
小型、½背 (20.3 x 11.4 x 5.35mm)
•
Coplanarity less than 0.004”
平面度は0.1mm以下
•
Tape & reel packaging
梱包はテ½ピン½゙仕様
•
Programmable output voltage via external resistor
外部接続の抵抗によりプロ½゙ラム可½な出力電圧
•
No minimum load required
•
Start up into pre-biased output
出力にプリバ½½½½があっても起動可½
最小負荷は不要
Applications
•
Intermediate Bus Architecture
中間バ½½構成½½½テム
•
Remote ON/OFF
リモ½トON/OFF機½
•
Auto-reset output over-current protection
過電流保護機½: 自動復帰
•
Auto-reset over-temperature protection
内部加熱保護機½: 自動復帰
•
Telecommunications
テレ½ム½½½テム
•
High reliability, MTBF = 1 Million Hours
高信頼性: MTBF = 1 Million Hours
•
Data/Voice processing
デ½タ処理½½½テム
•
Distributed Power Architecture
分散型電源½½½テム
•
UL60950 recognition in U.S. & Canada, and CB
Scheme certification per IEC/EN60950 (Pending)
UL60950、CB Schemeを取得(予定)
•
Computing (Servers, Workstations)
½ンピ½½タ関係(½½バ½、ワ½½½½テ½½½ン)
•
All materials meet UL94, V-0 flammability rating
全ての部品は UL94 V-0に適合
http://www.fdk.com
Page 1 of 26
Ver 2.3 Nov. 05, 2007
Delivering Next Generation Technology
Series
FPMR05SR7506*A
Electrical Specifications
2.4-5.5Vdc Input, 6A, 0.7525-3.63Vdc Output
電気的仕様
All specifications apply over specified input voltage, output load, and temperature range, unless otherwise
noted.
注記が無い場合、全ての仕様は指定された入力電圧、負荷、温度範囲で適用されます。
Conditions: Ta=25degC, Airflow=200LFM (1.0m/s), Vin=5.0Vdc, unless otherwise specified.
PARAMETER
ABSOLUTE MAXIMUM RATINGS
1
Input Voltage
Operating Temperature
Storage Temperature
Output Voltage
FEATURE CHARACTERISTICS
Switching Frequency
Output Voltage Programming Range
Turn-On Delay Time
with Vin (module enabled, then Vin applied)
with Enable (Vin applied, then enabled)
Rise Time (Full resistive load)
ON/OFF Control (Negative Logic)
Module Off
Module On
ON/OFF Control (Positive Logic)
Module Off
Module On
Continuous
NOTES
MIN
TYP
MAX
UNITS
-0.3
-40
-55
0.7525
6.0
85
125
3.63
Vdc
°C
°C
Vdc
Ambient temperature
300
By external resistor. See trim table-1
Full resistive load
From Vin=Vin(min) to 0.1*Vout(nom)
From enable to 0.1*Vout(nom)
From 0.1*Vout(nom) to 0.9*Vout(nom)
See Page26. Part Numbering Scheme
2.4
-5.0
See Page26. Part Numbering Scheme
-5.0
Vin-0.8
Vin-1.6
Vin
Vdc
Vdc
Vin
0.8
Vdc
Vdc
5
5
5
ms
ms
ms
0.7525
3.63
Vdc
1
Absolute Maximum Ratings
絶対最大定格
Stresses in excess of the absolute maximum ratings may lead to degradation in performance and reliability of
the converter and may result in permanent damage.
絶対最大定格を超えた½½トレ½½は、性½の½下、長期信頼性の½下、及びモ½゙½½ルの破損を引き起こすことがあります。
http://www.fdk.com
Page 2 of 26
Ver 2.3 Nov. 05, 2007
Delivering Next Generation Technology
Series
FPMR05SR7506*A
2.4-5.5Vdc Input, 6A, 0.7525-3.63Vdc Output
Electrical Specifications (Continued)
電気的仕様 (続き)
Conditions: Ta=25degC, Airflow=200LFM (1.0m/s), Vin=5.0Vdc, unless otherwise specified.
PARAMETER
INPUT CHARACTERISTICS
Operating Input Voltage Range
Vout
≦ 1.8V
NOTES
MIN
TYP
MAX
UNITS
2.4
3.3
4.5
5.0
5.0
5.0
5.5
5.5
5.5
Vdc
Vdc
Vdc
1.8V < Vout
≦
2.5V
Vout
≧
3.3V (ALL)
Input Under Voltage Lockout
Turn-on Threshold
Turn-off Threshold
Maximum Input Current
6Aout at Vin min
Vout=3.3V
Vout=2.5V
Vout=2.0V
Vout=1.8V
Vout=1.5V
Vout=1.2V
Vout=1.0V
Vout=0.7525V
Input Stand-by Current (module disabled)
Input No Load Current
Vout=3.3V
Vout=2.5V
Vout=2.0V
Vout=1.8V
Vout=1.5V
Vout=1.2V
Vout=1.0V
Vout=0.7525V
Input Reflected-Ripple Current
See Fig. G for setup (BW=20MHz)
2.2
1.95
2.1
2.4
Vdc
Vdc
4.73
4.94
4.02
5.02
4.25
3.49
2.99
2.36
2
53
60
58
56
46
42
38
32
35
Adc
Adc
Adc
Adc
Adc
Adc
Adc
Adc
mA
mA
mA
mA
mA
mA
mA
mA
mA
mAp-p
http://www.fdk.com
Page 3 of 26
Ver 2.3 Nov. 05, 2007
Delivering Next Generation Technology
Series
FPMR05SR7506*A
2.4-5.5Vdc Input, 6A, 0.7525-3.63Vdc Output
Electrical Specifications (Continued)
PARAMETER
OUTPUT CHARACTERISTICS
Output Voltage Set Point (no load)
Output Regulation
Over Line
Over Load
Output Voltage Range
(Over all operating input voltage, resistive load
and temperature conditions until end of life)
Output Ripple and Noise BW=20MHz
Peak to Peak
External Load Capacitance
Min ESR > 1mΩ
Min ESR > 10mΩ
Output Current Range
Output Current Limit Inception (Iout)
Output Short-Circuit Current
DYNAMIC RESPONSE
Iout step from 3A to 6A with di/dt= 5A/µS
Setting time (Vout < 10% peak deviation)
Iout step from 6A to 3A with di/dt= -5A/µS
Setting time (Vout < 10% peak deviation)
EFFICIENCY
電気的仕様 (続き)
NOTES
MIN
TYP
MAX
UNITS
Conditions: Ta=25degC, Airflow=200LFM (1.0m/s), Vin=5.0Vdc, unless otherwise specified.
-1.5
Vout
+1.5
%Vout
Full resistive load
From no load to full load
-2.5
Over line, load and temperature (Fig. F)
Vout=3.3Vdc
Plus full load (resistive)
+/- 0.3
+/- 0.5
+2.5
%Vout
%Vout
%Vout
40
70
mVp-p
1000
2000
0
Vout=3.3Vdc
Short=10mΩ, Vout=3.3Vdc set
9.6
3.5
6
µF
µF
A
A
Arms
Co=47µF x 2 ceramic + 1µF ceramic
100
40
mV
µS
mV
µS
Co=47µF x 2 ceramic + 1µF ceramic
100
40
Full load (6A)
Vout=3.3Vdc
Vout=2.5Vdc
Vout=2.0Vdc
Vout=1.8Vdc
Vout=1.5Vdc
Vout=1.2Vdc
Vout=1.0Vdc
Vout=0.7525Vdc
93.5
91.5
90.0
89.0
87.5
85.0
82.5
78.0
%
%
%
%
%
%
%
%
http://www.fdk.com
Page 4 of 26
Ver 2.3 Nov. 05, 2007
Delivering Next Generation Technology
Series
FPMR05SR7506*A
Operation
Input and Output Impedance
The
FPMR05SR7506*A
converter should be
connected to a DC power source using a low
impedance input line. In order to counteract the
possible effect of input line inductance on the stability
of the converter, the use of decoupling capacitors
placed in close proximity to the converter input pins is
recommended. This will ensure stability of the
converter and reduce input ripple voltage. Although
low ESR Tantalum or other capacitors should
typically be adequate, very low ESR capacitors
(ceramic, over 200µF) are recommended to minimize
input ripple voltage. The converter itself has on-board
internal input capacitance of 5x2.2µF with very low
ESR (ceramic).
FPMR05SR7506*Aと入力電源間は½½ンピ½ダン½½で接続してください。½
ンバ½タの安定性に½響のある入力½ンダ½タン½½を抑えるため、½ンバ½タの
入力ピンの近傍にデ½½プリン½゙½ンデン½を付加することをお勧めします。こ
れにより½ンバ½タの安定動½を確実にし、入力リ½プル電圧を抑制します。
½ESRタンタル、又はその他の½ンデン½も一般的には問題ありませんが、
入力リ½プルを最小にするためには、非常に½ESR½ンデン½(½ラミ½½で200
μF以上)を推奨します。½ンバ½タ自身は入力回路に極½ESRの5x2.2μF
½ラミ½½入力½ンデン½を搭載しています。
2.4-5.5Vdc Input, 6A, 0.7525-3.63Vdc Output
ON/OFF (Pin 5)
The ON/OFF pin (pin 5) can be used to turn the
converter on or off remotely using a signal that is
referenced to GND (pin 2), as shown in Fig. A.
Two remote control options are available,
corresponding to negative and positive logic. In the
negative logic option, to turn the converter on Pin 5
should be at logic low or left open, and to turn the
converter off Pin 5 should be at logic high or
connected to Vin. In the positive logic option, to turn
the converter on Pin 5 should be at logic high,
connected to Vin or left open, and to turn the
converter off Pin 5 should be at logic low.
ON/OFF端子(5番ピン)は図Aのように、½゙ランド(2番ピン)を基準としたリモ½ト
信号により½ンバ½タをON/OFFするのに½われます。 ネ½゙テ½ブとポ½゙テ½ブ
ロ½゙½½に対応するため、2種類のリモ½ト½ントロ½ルを選択可½です。
ネ½゙テ½ブ½プ½½ンの場合、½ンバ½タをONするには5番ピンをLowレベル、又は
未接続とし、½ンバ½タをOFFするには5番ピンをHighレベル、又はVinと接続
とします。ポ½゙テ½ブ½プ½½ンの場合、½ンバ½タをONするには5番ピンをHighレ
ベル、Vinに接続、又は未接続とし、½ンバ½タをOFFするには5番ピンをLow
レベルにします。
The
FPMR05SR7506*A
is capable of stable
operation with no external capacitance on the output.
To minimize output ripple voltage, the use of very low
ESR ceramic capacitors is recommended. These
capacitors should be placed in close proximity to the
load to improve transient performance and to
decrease output voltage ripple.
FPMR05SR7506*Aは出力に外付け½ンデン½が無い状態でも安定して動
½します。出力リ½プルを最小にするため、極½ESRの½ラミ½½½ンデン½の接
続を推奨します。過渡時の特性向上と出力リ½プル½減のために負荷の
近傍に極½ESR½ラミ½½½ンデン½を実装することをお勧めします。
For a positive logic option, the ON/OFF pin (pin5) is
internally pulled-up to Vin. An open collector (open
-drain) transistor can be used to drive Pin 5.
The device driving Pin 5 must be capable of:
(a) Sinking up to 0.4mA at low logic level
ポ½゙テ½ブ½プ½½ンの場合、ON/OFFピンはモ½゙½½ル内部でVinにプル½½プさ
れています。½½プン½レ½タ(½½プンドレ½ン)のトラン½゙½½タがON/OFFピンの操
½に½用可½です。
ON/OFFピンを操½するデバ½½½には下記½力が必要です。
(a) Lowレベルで0.4mA程度の½ン½½力
Note that the converter does not have a SENSE pin
to counteract voltage drops between the output pins
and the load. The impedance of the line from the
converter output to the load should thus be kept as
low as possible to maintain good load regulation.
この½ンバ½タは出力端子と負荷間の電圧ドロ½プを補正する½ン½½端子を設
けていません。精度の高い負荷特性を保持するために、½ンバ½タの出力
から負荷までのラ½ン½ンピ½ダン½½は可½な限り½くしてください。
For a negative logic option, the ON/OFF pin (pin5) is
internally pulled-down.A TTL or CMOS logic gate,
open collector(open-drain) transistor can be used to
drive Pin 5. When using an open collector(open
-drain) transistor, a pull-up resistor, R*=5kΩ, should
be connected to Vin (See Fig. A).
The device driving Pin 5 must be capable of:
(b) Sinking up to 1.2mA at low logic level (≦0.8V)
(c) Sourcing up to 0.25mA at high logic level (2.3-5V)
ネ½゙テ½ブ½プ½½ンの場合、ON/OFFピンはモ½゙½½ル内部でプルダ½ンされてい
ます。TTL、 CMOSロ½゙½½、又は½½プン½レ½タのトラン½゙½½タもON/OFFピンの
操½に½用可½です。½½プン½レ½タのトラン½゙½½タを½用する時は5kΩのプ
ル½½プ抵抗をVinに接続してください。(図A参照)
ON/OFFピンを操½するデバ½½½には下記½力が必要です。
(b) 0.8V以下のLowレベルで1.2mAまでの½ン½½力
(c) 2.3V-5VのHighロ½゙½½レベルで0.25mAまでの供給½力
Vin
Vout
R*
Vin
ON/OFF
Rload
GND
CONTROL
INPUT
TRIM
R* is for negative logic option only
Fig. A: Circuit configuration for remote ON/OFF
http://www.fdk.com
Page 5 of 26
Ver 2.3 Nov. 05, 2007
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