LT1976HFE#PBF (Linear) PDF资料下载 Datasheet(25/28 页)

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型号：	LT1976HFE#PBF
厂商：	Linear Technology
文件页数：	25/28页
文件大小：	0K
描述：	IC REG BUCK ADJ 1.5A 16TSSOP
标准包装：	95
类型：	降压（降压）
输出类型：	可调式
输出数：	1
输出电压：	1.2 V ~ 54 V
输入电压：	3.3 V ~ 60 V
PWM 型：	电流模式，混合
频率 - 开关：	200kHz
电流 - 输出：	1.5A
同步整流器：	无
工作温度：	-40°C ~ 150°C
安装类型：	表面贴装
封装/外壳：	16-TSSOP（0.173"，4.40mm）裸露焊盘
包装：	管件
供应商设备封装：	16-TSSOP-EP

LT1976/LT1976B

APPLICATIO S I FOR ATIO

HIGH TEMPERATURE OPERATION

Extreme care must be taken when designing LT1976

applications to operate at high ambient temperatures. The

LT1976H grade is designed to work at elevated tempera-

tures but erratic operation can occur due to external

components. Each passive component should be checked

for absolute value and voltage ratings to ensure loop

stability at temperature. Boost and Catch diode leakages,

as well as increased series resistance (Table 5), will

adversely affect efficiency and low quiescent current op-

eration. Junction temperature increase in the diodes due

to self heating (leakage) and power dissipation should be

measured to ensure their maximum temperature specifi-

cations are not violated.

Input Voltage vs Operating Frequency Considerations

The absolute maximum input supply voltage for the LT1976

is specified at 60V. This is based solely on internal semi-

conductor junction breakdown effects. Due to internal

power dissipation the actual maximum V IN achievable in a

particular application may be less than this.

A detailed theoretical basis for estimating internal power

loss is given in the section Thermal Considerations. Note

that AC switching loss is proportional to both operating

frequency and output current. The majority of AC switch-

ing loss is also proportional to the square of input voltage.

For example, while the combination of V IN = 40V, V OUT =

5V at 1A and f OSC = 200kHz may be easily achievable,

simultaneously raising V IN to 60V and f OSC to 700kHz is

not possible. Nevertheless, input voltage transients up to

60V can usually be accommodated, assuming the result-

ing increase in internal dissipation is of insufficient time

duration to raise die temperature significantly.

A second consideration is controllability. A potential limi-

tation occurs with a high step-down ratio of V IN to V OUT ,

as this requires a correspondingly narrow minimum switch

on time. An approximate expression for this (assuming

continuous mode operation) is given as follows:

t ON(MIN) = V OUT + V F /V IN (f OSC )

where:

V IN = input voltage

V OUT = output voltage

V F = Schottky diode forward drop

f OSC = switching frequency

A potential controllability problem arises if the LT1976 is

called upon to produce an on time shorter than it is able to

produce. Feedback loop action will lower then reduce the

V C control voltage to the point where some sort of cycle-

skipping or Burst Mode behavior is exhibited.

In summary:

1. Be aware that the simultaneous requirements of high

V IN , high I OUT and high f OSC may not be achievable in

practice due to internal dissipation. The Thermal Con-

siderations section offers a basis to estimate internal

power. In questionable cases a prototype supply should

be built and exercised to verify acceptable operation.

2. The simultaneous requirements of high V IN , low V OUT

and high f OSC can result in an unacceptably short

minimum switch on time. Cycle-skipping and/or Burst

Mode behavior will result although correct output volt-

age is usually maintained.

FREQUENCY COMPENSATION

Before starting on the theoretical analysis of frequency

response the following should be remembered—the worse

the board layout, the more difficult the circuit will be to

stabilize. This is true of almost all high frequency analog

circuits. Read the Layout Considerations section first.

Common layout errors that appear as stability problems

are distant placement of input decoupling capacitor and/or

catch diode and connecting the V C compensation to a

ground track carrying significant switch current. In addi-

tion the theoretical analysis considers only first order non-

ideal component behavior. For these reasons, it is important

that a final stability check is made with production layout

and components.

1976bfg

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