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参数资料
| 型号: | HIP6500 |
| 厂商: | Intersil Corporation |
| 元件分类: | 基准电压源/电流源 |
| 英文描述: | Multiple Linear Power Controller with ACPI Control Interface |
| 中文描述: | 多重线性电源控制器ACPI控制接口 |
| 文件页数: | 11/15页 |
| 文件大小: | 155K |
| 代理商: | HIP6500 |
11
Application Guidelines
Soft-Start Interval
The 5VSB output of a typical ATX supply is capable of
725mA. During power-up in a sleep state, it needs to provide
sufficient current to charge up all the output capacitors and
simultaneously provide some amount of current to the output
loads. Drawing excessive amounts of current from the 5VSB
output of the ATX can lead to voltage collapse and induce a
pattern of consecutive restarts with unknown effects on the
system’s behavior or health.
The built-in soft-start circuitry allows tight control of the slew-
up speed of the output voltages controlled by the HIP6500,
thus enabling power-ups free of supply drop-off events.
Since the outputs are ramped up in a linear fashion, the
current dedicated to charging the output capacitors can be
calculated with the following formula:
I
SS
, where
I
SS
- soft-start current (typically 10
μ
A)
C
SS
- soft-start capacitor
V
BG
- bandgap voltage (typically 1.26V)
Σ
(
C
OUT
x V
OUT
) - sum of the products between the
capacitance and the voltage of an output (total charge
delivered to all outputs).
Due to the various system timing events, it is recommended
that the soft-start interval not be set to exceed 30ms.
Shutdown
In case of a FAULT condition that might endanger the
computer system, or at any other time, all the HIP6500
outputs can be shut down by pulling the SS pin below the
specified shutdown level (typically 0.8V) with an open drain
or open collector device capable of sinking a minimum of
2mA. Pulling the SS pin low effectively shuts down all the
pass elements. Upon release of the SS pin, the HIP6500
undergoes a new soft-start cycle and resumes normal
operation in accordance to the ATX supply and control pins
status.
Layout Considerations
The typical application employing a HIP6500 is a fairly
straight forward implementation. Like with any other linear
regulator, attention has to be paid to the few potentially
sensitive small signal components, such as those connected
to sensitive nodes or those supplying critical by-pass
current.
The power components (pass transistors) and the controller
IC should be placed first. The controller should be placed in
a central position on the motherboard, closer to the memory
load if possible, but not excessively far from the clock chip or
the processor. Insure the VSEN2 connection is properly
sized to carry 250mA without significant resistive losses;
similar guideline applies to the VCLK output, which can
deliver as much as 800mA (typical). As the current for the
VCLK output is provided from the ATX 3.3V, the connection
from the 3V3 pin to the 3.3V plane should be sized to carry
the maximum clock output current while exhibiting negligible
voltage losses. Similarly, the current for the 3.3V
SB
output is
provided from the 5VSB pin, and the output current on pin
DRV2 from the 5V pin - for best results, insure these pins are
connected to their respective sources through adequate
traces. The pass transistors should be placed on pads
capable of heatsinking matching the device’s power
dissipation. Where applicable, multiple via connections to a
large internal plane can significantly lower localized device
temperature rise.
Placement of the decoupling and bulk capacitors should
follow a placement reflecting their purpose. As such, the
high-frequency decoupling capacitors should be placed as
close as possible to the load they are decoupling; the ones
decoupling the controller close to the controller pins, the
ones decoupling the load close to the load connector or the
load itself (if embedded). Even though bulk capacitance
(aluminum electrolytics or tantalum capacitors) placement is
not as critical as the high-frequency capacitor placement,
having these capacitors close to the load they serve is
preferable.
The only critical small signal component is the soft-start
capacitor, C
SS
. Locate this component close to SS pin of the
control IC and connect to ground through a via placed close
to the capacitor’s ground pad. Minimize any leakage current
paths from SS node, since the internal current source is only
10
μ
A.
I
COUT
BG
-----------------------------
Σ
C
OUT
V
OUT
×
(
)
×
=
HIP6500
相关PDF资料 |
PDF描述 |
|---|---|
| HIP6500CB | Multiple Linear Power Controller with ACPI Control Interface |
| HIP6500EVAL1 | Multiple Linear Power Controller with ACPI Control Interface |
| HIP6501 | Triple Linear Power Controller with ACPI Control Interface |
| HIP6501A | Triple Linear Power Controller with ACPI Control Interface(带ACPI控制接口的线性电源控制器) |
| HIP6501EVAL1 | Triple Linear Power Controller with ACPI Control Interface |
相关代理商/技术参数 |
参数描述 |
|---|---|
| HIP6500 WAF | 制造商:Intersil Corporation 功能描述: |
| HIP6500_00 | 制造商:INTERSIL 制造商全称:Intersil Corporation 功能描述:Multiple Linear Power Controller with ACPI Control Interface |
| HIP6500B | 制造商:INTERSIL 制造商全称:Intersil Corporation 功能描述:Multiple Linear Power Controller with ACPI Control Interface |
| HIP6500BCB | 制造商:Rochester Electronics LLC 功能描述:- Bulk |
| HIP6500BCB WAF | 制造商:Harris Corporation 功能描述: |
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