世俱杯 2025

ISL6334 Datasheet

  • ISL6334

  • Intersil Corporation [VR11.1, 4-Phase PWM Controller with L...

  • 559.14KB

  • INTERSIL   INTERSIL

扫码查看芯片数据手册

上传产品规格书

PDF预览

ISL6334, ISL6334A
different voltage divider is used for the TM function, the
TCOMP voltage can also be used to compensate for the
difference between the recommended TM voltage curve in
Figure 14 and that of the actual design. According to the
VCC voltage, ISL6334, ISL6334A converts the TCOMP pin
voltage to a 4-bit TCOMP digital signal as TCOMP factor N.
The TCOMP factor N is an integer between 0 and 15. The
integrated temperature compensation function is disabled for
N = 0. For N = 4, the NTC temperature is equal to the
temperature of the current sense component. For N < 4, the
NTC is hotter than the current sense component. The NTC is
cooler than the current sense component for N > 4. When
N > 4, the larger TCOMP factor N, the larger the difference
between the NTC temperature and the temperature of the
current sense component.
ISL6334, ISL6334A multiplexes the TCOMP factor N with
the TM digital signal to obtain the adjustment gain to
compensate the temperature impact on the sensed channel
current. The compensated channel current signal is used for
droop and overcurrent protection functions.
11. If the output voltage increases over 2mV as the
temperature increases, i.e. V2 - V1 > 2mV, reduce N and
redesign R
TC2
; if the output voltage decreases over 2mV
as the temperature increases, i.e. V1 - V2 > 2mV,
increase N and redesign R
TC2
.
External Temperature Compensation
By pulling the TCOMP pin to GND, the integrated
temperature compensation function is disabled. In addition,
one external temperature compensation network, shown in
Figure 16, can be used to cancel the temperature impact on
the droop (i.e., load line).
IS L 6 3 3 4 ,
IS L 6 3 3 4 A
IN T E R N A L
C IR C U IT
COMP
FB
o
C
IS E N
Design Procedure
1. Properly choose the voltage divider for the TM pin to
match the TM voltage vs temperature curve with the
recommended curve in Figure 13.
2. Run the actual board under the full load and the desired
cooling condition.
3. After the board reaches the thermal steady state, record
the temperature (T
CSC
) of the current sense component
(inductor or MOSFET) and the voltage at TM and VCC
pins.
4. Use Equation 21 to calculate the resistance of the TM
NTC, and find out the corresponding NTC temperature
T
NTC
from the NTC datasheet.
V
TM
xR
TM1
R
NTC
(
T
= -------------------------------
-
)
V
CC
鈥?/div>
V
NTC
TM
209x
(
T
CSC
鈥?/div>
T
)
NTC
-
N
=
-------------------------------------------------------
+
4
3xT
NTC
+
400
(EQ. 21)
V D IF F
FIGURE 16. EXTERNAL TEMPERATURE COMPENSATION
The sensed current will flow out of the FB pin and develop a
droop voltage across the resistor equivalent (R
FB
) between
the FB and VDIFF pins. If R
FB
resistance reduces as the
temperature increases, the temperature impact on the droop
can be compensated. An NTC resistor can be placed close to
the power stage and used to form R
FB
. Due to the non-linear
temperature characteristics of the NTC, a resistor network is
needed to make the equivalent resistance between the FB
and VDIFF pins reverse proportional to the temperature.
The external temperature compensation network can only
compensate the temperature impact on the droop, while it has
no impact to the sensed current inside ISL6334, ISL6334A.
Therefore, this network cannot compensate for the
temperature impact on the overcurrent protection function.
5. Use Equation 22 to calculate the TCOMP factor N:
(EQ. 22)
6. Choose an integral number close to the above result for
the TCOMP factor. If this factor is higher than 15, use
N = 15. If it is less than 1, use N = 1.
7. Choose the pull-up resistor R
TC1
(typical 10k惟);
8. If N = 15, one does not need the pull-down resistor R
TC2
.
If otherwise, obtain R
TC2
using Equation 23:
NxR
TC1
-
R
TC2
=
----------------------
15
鈥?/div>
N
(EQ. 23)
General Design Guide
This design guide is intended to provide a high-level
explanation of the steps necessary to create a multiphase
power converter. It is assumed that the reader is familiar with
many of the basic skills and techniques referenced in the
following. In addition to this guide, Intersil provides complete
reference designs, which include schematics, bills of
materials, and example board layouts for all common
microprocessor applications.
9. Run the actual board under full load again with the proper
resistors connected to the TCOMP pin.
10. Record the output voltage as V1 immediately after the
output voltage is stable with the full load. Record the
output voltage as V2 after the VR reaches the thermal
steady state.
Power Stages
The first step in designing a multiphase converter is to
determine the number of phases. This determination
depends heavily upon the cost analysis, which in turn
depends on system constraints that differ from one design to
24
FN6482.0
February 26, 2008

ISL6334相关型号PDF文件下载

扫码下载APP,
 一键连接广大的电子世界。

在线人工客服

买家服务:
卖家服务:
技术客服:

0571-85317607

网站技术支持

13606545031

客服在线时间周一至周五
 9:00-17:30

关注官方微信号,
第一时间获取资讯。

建议反馈

联系人:

联系方式:

按住滑块,拖拽到最右边
>>
感谢您向阿库提出的宝贵意见,您的参与是维库提升服务的动力!意见一经采纳,将有感恩红包奉上哦!