欧美成人免费电影,国产欧美一区二区三区精品酒店,精品国产a毛片,色网在线免费观看

參數資料
型號: MC33129
廠商: Motorola, Inc.
英文描述: HIGH PERFORMANCE CURRENT MODE CONTROLLERS
中文描述: 高性能電流模式控制器
文件頁數: 8/16頁
文件大?。?/td> 347K
代理商: MC33129
MC34129 MC33129
OPERATING DESCRIPTION
8
MOTOROLA ANALOG IC DEVICE DATA
The MC34129 series are high performance current mode
switching regulator controllers specifically designed for use in
low power telecommunication applications. Implementation
will allow remote digital telephones and terminals to shed
their power cords and derive operating power directly from
the twisted pair used for data transmission. Although these
devices are primarily intended for use in digital telephone
systems, they can be used cost effectively in a wide range of
converter applications. A representative block diagram is
shown in Figure 18.
Oscillator
The oscillator frequency is programmed by the values
selected for the timing components RT and CT. Capacitor CT
is charged from the 2.5 V reference through resistor RT to
approximately 1.25 V and discharged by an internal current
sink to ground. During the discharge of CT, the oscillator
generates an internal blanking pulse that holds the lower
input of the NOR gate high. This causes the Drive Output to
be in a low state, thus producing a controlled amount of
output deadtime. Figure 1 shows Oscillator Frequency
versus RT and Figure 2 Output Deadtime versus Frequency,
both for given values of CT. Note that many values of RT and
CT will give the same oscillator frequency but only one
combination will yield a specific output deadtime at a give
frequency. In many noise sensitive applications it may be
desirable to frequency–lock one or more switching regulators
to an external system clock. This can be accomplished by
applying the clock signal to the Synch/Inhibit Input. For
reliable locking, the free–running oscillator frequency should
be about 10% less than the clock frequency. Referring to the
timing diagram shown Figure 19, the rising edge of the clock
signal applied to the Sync/Inhibit Input, terminates charging
of CT and Drive Output conduction. By tailoring the clock
waveform, accurate duty cycle clamping of the Drive Output
can be achieved. A circuit method is shown in Figure 20. The
Sync/Inhibit Input may also be used as a means for system
shutdown by applying a dc voltage that is within the range of
2.0 V to VCC.
PWM Comparator and Latch
The MC34129 operates as a current mode controller
whereby output switch conduction is initiated by the oscillator
and terminated when the peak inductor current reaches a
threshold level established by the output of the Error Amp or
Soft–Start Buffer (Pin 11). Thus the error signal controls the
peak inductor current on a cycle–by–cycle basis. The PWM
Comparator–Latch configuration used, ensures that only a
single pulse appears at the Drive Output during any given
oscillator cycle. The inductor current is converted to a voltage
by inserting the ground–referenced resistor RS in series with
the source of output switch Q1. The Ramp Input adds an
offset of 275 mV to this voltage to guarantee that no pulses
appear at the Drive Output when Pin 11 is at its lowest state.
This occurs at the beginning of the soft–start interval or when
the power supply is operating and the load is removed. The
peak inductor current under normal operating conditions is
controlled by the voltage at Pin 11 where:
V(Pin 11) – 0.275 V
Ipk =
RS
Abnormal operating conditions occur when the power
supply output is overloaded or if output voltage sensing is
lost. Under these conditions, the voltage at Pin 11 will be
internally clamped to 1.95 V by the output of the Soft–Start
Buffer. Therefore the maximum peak switch current is:
Ipk(max) =1.95 V – 0.275
RS
RS
1.675 V
=
When designing a high power switching regulator it
becomes desirable to reduce the internal clamp voltage in
order to keep the power dissipation of RS to a reasonable
level. A simple method which adjusts this voltage in discrete
increments is shown in Figure 22. This method is possible
because the Ramp Input bias current is always negative
(typically –120
μ
A). A positive temperature coefficient equal
to that of the diode string will be exhibited by Ipk(max). An
adjustable method that is more precise and temperature
stable is shown in Figure 23. Erratic operation due to noise
pickup can result if there is an excessive reduction of the
clamp voltage. In this situation, high frequency circuit layout
techniques are imperative.
A narrow spike on the leading edge of the current
waveform can usually be observed and may cause the power
supply to exhibit an instability when the output is lightly
loaded. This spike is due to the power transformer
interwinding capacitance and output rectifier recovery time.
The addition of an RC filter on the Ramp Input with a time
constant that approximates the spike duration will usually
eliminate the instability; refer to Figure 25.
Error Amp and Soft–Start Buffer
A fully–compensated Error Amplifier with access to both
inputs and output is provided for maximum design flexibility.
The Error Amplifier output is common with that of the
Soft–Start Buffer. These outputs are open–collector (sink
only) and are ORed together at the inverting input of the PWM
Comparator. With this configuration, the amplifier that
demands lower peak inductor current dominates control of
the loop. Soft–Start is mandatory for stable startup when
power is provided through a high source impedance such as
the long twisted pair used in telecommunications. It
effectively removes the load from the output of the switching
power supply upon initial startup. The Soft–Start Buffer is
configured as a unity gain follower with the noninverting input
connected to Pin 12. An internal 1.0
μ
A current source
charges the soft–start capacitor (CSoft–Start) to an internally
clamped level of 1.95 V. The rate of change of peak inductor
current, during startup, is programmed by the capacitor value
selected. Either the Fault Timer or the Undervoltage Lockout
can discharge the soft–start capacitor.
相關PDF資料
PDF描述
MC34129D HIGH PERFORMANCE CURRENT MODE CONTROLLERS
MC34129P HIGH PERFORMANCE CURRENT MODE CONTROLLERS
MC34164P-3 MICROPOWER UNDERVOLTAGE SENSING CIRCUITS
MC34164DM-5 MICROPOWER UNDERVOLTAGE SENSING CIRCUITS
MC33164DM-5 MICROPOWER UNDERVOLTAGE SENSING CIRCUITS
相關代理商/技術參數
參數描述
MC33129D 制造商:Motorola Inc 功能描述:
MC33129DR2 制造商: 功能描述: 制造商:undefined 功能描述:
MC33129EFR2 功能描述:IC REG CTRLR FLYBK ISO CM 14SOIC RoHS:是 類別:集成電路 (IC) >> PMIC - 穩壓器 - DC DC 切換控制器 系列:- 標準包裝:4,000 系列:- PWM 型:電壓模式 輸出數:1 頻率 - 最大:1.5MHz 占空比:66.7% 電源電壓:4.75 V ~ 5.25 V 降壓:是 升壓:無 回掃:無 反相:無 倍增器:無 除法器:無 Cuk:無 隔離:無 工作溫度:-40°C ~ 85°C 封裝/外殼:40-VFQFN 裸露焊盤 包裝:帶卷 (TR)
MC33129P 制造商:FREESCALE 制造商全稱:Freescale Semiconductor, Inc 功能描述:High Performance Current Mode Controllers
MC33143 制造商:MOTOROLA 制造商全稱:Motorola, Inc 功能描述:DUAL HIGH-SIDE SWITCH
發布緊急采購,3分鐘左右您將得到回復。

采購需求

(若只采購一條型號,填寫一行即可)

發布成功!您可以繼續發布采購。也可以進入我的后臺,查看報價

發布成功!您可以繼續發布采購。也可以進入我的后臺,查看報價

*型號 *數量 廠商 批號 封裝
添加更多采購

我的聯系方式

*
*
*
主站蜘蛛池模板: 南木林县| 和顺县| 嫩江县| 濉溪县| 孟连| 浙江省| 宝丰县| 德江县| 房山区| 梁山县| 惠来县| 左云县| 平利县| 巴塘县| 秭归县| 错那县| 长丰县| 喀喇沁旗| 柞水县| 新乡市| 从化市| 包头市| 桑日县| 裕民县| 宿州市| 郯城县| 新营市| 竹山县| 蒙城县| 安徽省| 大连市| 宁陵县| 大足县| 苗栗县| 泊头市| 景宁| 图片| 甘孜县| 云安县| 祁东县| 万州区|