LTC1530CS8#TR (Linear) PDF资料下载 Datasheet(6/24 页)

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型号：	LTC1530CS8#TR
厂商：	Linear Technology
文件页数：	6/24页
文件大小：	0K
描述：	IC SW REG CTRLR SYNC HIPWR 8SOIC
标准包装：	2,500
应用：	控制器，Intel Pentium? II，AMD-K6?-2
输入电压：	3.75 V ~ 13.2 V
输出数：	1
输出电压：	1.3 V ~ 3.5 V
工作温度：	0°C ~ 70°C
安装类型：	表面贴装
封装/外壳：	8-SOIC（0.154"，3.90mm 宽）
供应商设备封装：	8-SOIC
包装：	带卷 (TR)

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LTC1530

PI FU CTIO S

PV CC (Pin 1): Power Supply for G1, G2 and Logic. PV CC

must connect to a potential of at least V IN + V GS(ON)Q1 . If

V IN = 5V, generate PV CC using a simple charge pump

connected to the switching node between Q1 and Q2 (see

Figure 1) or connect PV CC to a 12V supply. Bypass PV CC

properly or erratic operation will result. A low ESR 10 μ F

capacitor or larger bypass capacitor along with a 0.1 μ F

surface mount ceramic capacitor in parallel is recom-

mended from PV CC directly to GND to minimize switching

ripple. Switching ripple should be ≤ 100mV at the PV CC

pin.

GND (Pin 2): Power and Logic Ground. GND is connected

to the internal gate drive circuitry and the feedback cir-

cuitry. To obtain good output voltage regulation, use

proper ground techniques between the LTC1530 GND and

bottom-side FET source and the negative terminal of the

output capacitor. See the Applications Information section

for more details on PCB layout techniques.

V SENSE /V OUT (Pin 3): Feedback Voltage Pin. For the adjust-

able LTC1530, use an external resistor divider to set the

required output voltage. Connect the tap point of the

resistor divider network to V SENSE and the top of the

divider network to the output voltage. For fixed output

voltage versions of the LTC1530, the resistor divider is

internal and the top of the resistor divider network is

brought out to V OUT . In general, the resistor divider

network for each fixed output voltage version sinks ap-

proximately 30 μ A. Connect V OUT to the output voltage

either at the output capacitors or at the actual point of load.

V SENSE /V OUT is sensitive to switching noise injected into

the pin. Isolate high current switching traces from this pin

and its PCB trace.

COMP (Pin 4): External Compensation. The COMP pin is

connected to the error amplifier output and the input of the

PWM comparator. An RC + C network is typically used at

COMP to compensate the feedback loop for optimum

transient response. To shut down the LTC1530, pull this

pin below 0.1V with an open-collector or open-drain

transistor. Supply current is typically reduced to 45 μ A in

shutdown. An internal 4 μ A pullup ensures start-up.

I MAX (Pin 5): Current Limit Threshold. Current limit is set

by the voltage drop across an external resistor connected

between the drain of Q1 and I MAX . This voltage is com-

pared with the voltage across the R DS(ON) of the high side

MOSFET. The LTC1530 contains a 200 μ A internal pull-

down at I MAX to set current limit. This 200 μ A current

source has a positive temperature coefficient to provide

first order correction for the temperature coefficient of the

external N-channel MOSFET’s R DS(ON) .

I FB (Pin 6): Current Limit Sense Pin. Connect I FB to the

switching node between Q1’s source and Q2’s drain. If I FB

drops below I MAX with G1 on, the LTC1530 enters current

limit. Under this condition, the internal soft-start capacitor

is discharged and COMP is pulled low slowly. Duty cycle

is reduced and output power is limited. The current limit

circuitry is only activated if PV CC ≥ 8V. This action eases

start-up considerations as PV CC is ramping up because

the MOSFET’s R DS(ON) can be significantly higher than

what is measured under normal operating conditions. The

current limit circuit is disabled by floating I MAX and short-

ing I FB to PV CC .

G2 (Pin 7): Gate Drive for the Low Side N-Channel MOSFET,

Q2. This output swings from PV CC to GND. It is always low

if G1 is high or if the output is disabled. To prevent

undershoot during a soft-start cycle, G2 is held low until

G1 first transitions high.

G1 (Pin 8): Gate Drive for the Topside N-Channel MOSFET,

Q1. This output swings from PV CC to GND. It is always low

if G2 is high or if the output is disabled.

1530fa

6

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