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參數資料
型號: ADP3155JRU
廠商: ANALOG DEVICES INC
元件分類: 穩壓器
英文描述: 5-Bit Programmable Triple Power Supply Controller for Pentium III Processors
中文描述: SWITCHING CONTROLLER, PDSO20
封裝: TSSOP-20
文件頁數: 13/14頁
文件大?。?/td> 200K
代理商: ADP3155JRU
REV. A
ADP3155
–13–
8.
The output capacitors should also be connected as closely
as possible to the load (or connector) that receives the
power (e.g., a microprocessor core). If the load is distrib-
uted, the capacitors also should be distributed, and gen-
erally in proportion to where the load tends to be more
dynamic.
Absolutely avoid crossing any signal lines over the switching
power path loop, described below.
9.
Power Circuitry
10. The switching power path should be routed on the PCB to
encompass the smallest possible area in order to minimize
radiated switching noise energy (i.e., EMI). Failure to take
proper precaution often results in EMI problems for the
entire PC system as well as noise-related operational prob-
lems in the power converter control circuitry. The switching
power path is the loop formed by the current path through
the input capacitors, the two FETs and the power Schottky
diode, if used, including all interconnecting PCB traces and
planes. The use of short and wide interconnection traces is
especially critical in this path for two reasons: it minimizes
the inductance in the switching loop, which can cause high-
energy ringing, and it accommodates the high current de-
mand with minimal voltage loss.
11. A power Schottky diode (1 ~ 2 A dc rating) placed from the
lower FET’s source (anode) to drain (cathode) will help to
minimize switching power dissipation in the upper FET. In
the absence of an effective Schottky diode, this dissipation
occurs through the following sequence of switching events.
The lower FET turns off in advance of the upper FET
turning on (necessary to prevent cross-conduction). The
circulating current in the power converter, no longer find-
ing a path for current through the channel of the lower
FET, draws current through the inherent body-drain diode
of the FET. The upper FET turns on, and the reverse
recovery characteristic of the lower FET’s body-drain diode
prevents the drain voltage from being pulled high quickly.
The upper FET then conducts very large current while it
momentarily has a high voltage forced across it, which
translates into added power dissipation in the upper FET.
The Schottky diode minimizes this problem by carrying a
majority of the circulating current when the lower FET is
turned off, and by virtue of its essentially nonexistent re-
verse recovery time.
12. A small ferrite bead inductor placed in series with the drain
of the lower FET can also help to reduce this previously
described source of switching power loss.
13. Whenever a power dissipating component (e.g., a power
MOSFET) is soldered to a PCB, the liberal use of vias,
both directly on the mounting pad and immediately sur-
rounding it, is recommended. Two important reasons for
this are: improved current rating through the vias (if it is a
current path), and improved thermal performance—espe-
cially if the vias extended to the opposite side of the PCB
where a plane can more readily transfer the heat to the air.
14. The output power path, though not as critical as the switch-
ing power path, should also be routed to encompass a small
area. The output power path is formed by the current path
through the inductor, the current sensing resistor, the out-
put capacitors, and back to the input capacitors.
15. For best EMI containment, the power ground plane should
extend fully under all the power components except the
output capacitors. These are: the input capacitors, the
power MOSFETs and Schottky diode, the inductor, the
current sense resistor and any snubbing elements that
might be added to dampen ringing. Avoid extending the
power ground under any other circuitry or signal lines,
including the voltage and current sense lines.
Signal Circuitry
16. The output voltage is sensed and regulated between the
AGND pin (which connects to the signal ground plane)
and the SENSE– pin. The output current is sensed (as a
voltage) and regulated between the SENSE– pin and the
SENSE+ pin. In order to avoid differential mode noise
pickup in those sensed signals, their loop areas should be
small. Thus the SENSE– trace should be routed atop the
signal ground plane, and the SENSE+ and SENSE– traces
should be routed as a closely coupled pair (SENSE+ should
be over the signal ground plane as well).
17. The SENSE+ and SENSE– traces should be Kelvin con-
nected to the current sense resistor so that the additional
voltage drop due to current flow on the PCB at the current
sense resistor connections does not affect the sensed volt-
age. It is desirable to have the ADP3155 close to the output
capacitor bank and not in the output power path, so that
any voltage drop between the output capacitors and the
AGND pin is minimized, and voltage regulation is not
compromised.
相關PDF資料
PDF描述
ADP3156JR-15 Dual Power Supply Controller for Desktop Systems
ADP3156JR-18 Dual Power Supply Controller for Desktop Systems
ADP3156JR-25 Dual Power Supply Controller for Desktop Systems
ADP3156 Dual Power Supply Controller for Desktop Systems
ADP3160 5-Bit Programmable 2-Phase Synchronous Buck Controller
相關代理商/技術參數
參數描述
ADP3155JRU-REEL 制造商:Rochester Electronics LLC 功能描述:5-BIT PROGRAMMBLE TRIPLE POWER SUPPLY - Tape and Reel
ADP3155JRU-REEL7 功能描述:IC PS TRPL PENTIUM III 20-TSSOP RoHS:否 類別:集成電路 (IC) >> 專用 IC 系列:* 產品培訓模塊:Lead (SnPb) Finish for COTS Obsolescence Mitigation Program 標準包裝:1 系列:- 類型:調幀器 應用:數據傳輸 安裝類型:表面貼裝 封裝/外殼:400-BBGA 供應商設備封裝:400-PBGA(27x27) 包裝:散裝
ADP3156 制造商:AD 制造商全稱:Analog Devices 功能描述:Dual Power Supply Controller for Desktop Systems
ADP3156JR-1.5 制造商:Rochester Electronics LLC 功能描述:- Bulk
ADP3156JR-1.5-REEL 制造商:Rochester Electronics LLC 功能描述:- Tape and Reel
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