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参数资料
| 型号: | MAX8795AETJ+C7P |
| 厂商: | Maxim Integrated Products |
| 文件页数: | 18/31页 |
| 文件大小: | 0K |
| 描述: | IC TFT-LCD DC/DC CONV 32-TQFN |
| 产品培训模块: | Lead (SnPb) Finish for COTS Obsolescence Mitigation Program |
| 标准包装: | 60 |
| 应用: | 转换器,TFT,LCD |
| 输入电压: | 2.5 V ~ 6 V |
| 输出数: | 8 |
| 输出电压: | 2.5 V ~ 18 V |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 32-WFQFN 裸露焊盘 |
| 供应商设备封装: | 32-TQFN-EP(5x5) |
| 包装: | 管件 |
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�TFT-LCD� DC-DC� Converter� with�
�Operational� Amplifiers�
�REG� P� is� enabled� after� the� REF� voltage� exceeds� 1.0V.�
�Each� time� it� is� enabled,� the� controller� goes� through� a�
�soft-start� routine� that� ramps� up� its� internal� reference�
�DAC� in� 128� steps.�
�Gate-Off� Linear-Regulator� Controller,� REG� N�
�The� gate-off� linear-regulator� controller� (REG� N)� is� an�
�analog� gain� block� with� an� open-drain� p-channel� output.�
�It� drives� an� external� npn� pass� transistor� with� a� 6.8k� ?�
�base-to-emitter� resistor� (Figure� 1).� Its� guaranteed� base-�
�drive� source� current� is� at� least� 1mA.� The� regulator�
�including� Q2� in� Figure� 1� uses� a� 0.47μF� ceramic� output�
�capacitor� and� is� designed� to� deliver� 50mA� at� -10V.� Other�
�output� voltages� and� currents� are� possible� with� the� proper�
�pass� transistor� and� output� capacitor� (see� the� Pass-�
�Transistor� Selection� and� Stability� Requirements� sections).�
�REG� N� is� typically� used� to� provide� the� TFT-LCD� gate�
�drivers’� gate-off� voltage.� A� negative� voltage� can� be�
�produced� using� a� charge-pump� circuit� as� shown� in�
�Figure� 1.� REG� N� is� enabled� after� the� voltage� on� REF�
�exceeds� 1.0V.� Each� time� it� is� enabled,� the� control� goes�
�through� a� soft-start� routine� that� ramps� down� its� internal�
�reference� DAC� from� V� REF� to� 250mV� in� 128� steps.�
�Operational� Amplifiers�
�The� MAX8795A� has� five� operational� amplifiers.� The� opera-�
�tional� amplifiers� are� typically� used� to� drive� the� LCD� back-�
�plane� (VCOM)� or� the� gamma-correction� divider� string.�
�They� feature� ±� 130mA� output� short-circuit� current,� 45V/μs�
�slew� rate,� and� 20MHz/3dB� bandwidth.� The� rail-to-rail� input�
�and� output� capability� maximizes� system� flexibility.�
�Short-Circuit� Current� Limit� and� Input� Clamp�
�The� operational� amplifiers� limit� short-circuit� current� to�
�approximately� ±� 130mA� if� the� output� is� directly� shorted� to�
�SUP� or� to� BGND.� If� the� short-circuit� condition� persists,� the�
�junction� temperature� of� the� IC� rises� until� it� reaches� the�
�thermal-shutdown� threshold� (+160� °� C� typ).� Once� the� junc-�
�tion� temperature� reaches� the� thermal-shutdown� threshold,�
�an� internal� thermal� sensor� immediately� sets� the� thermal�
�fault� latch,� shutting� off� all� the� IC’s� outputs.� The� device�
�remains� inactive� until� the� input� voltage� is� cycled.�
�The� operational� amplifiers� have� 4V� input� clamp� structures�
�in� series� with� a� 500� ?� resistance� and� a� diode� (Figure� 2).�
�Driving� Pure� Capacitive� Load�
�The� operational� amplifiers� are� typically� used� to� drive�
�the� LCD� backplane� (VCOM)� or� the� gamma-correction�
�divider� string.� The� LCD� backplane� consists� of� a� distrib-�
�uted� series� capacitance� and� resistance,� a� load� that� can�
�be� easily� driven� by� the� operational� amplifier.� However,�
�if� the� operational� amplifier� is� used� in� an� application� with�
�a� pure� capacitive� load,� steps� must� be� taken� to� ensure�
�stable� operation.�
�As� the� operational� amplifier’s� capacitive� load� increases,�
�the� amplifier’s� bandwidth� decreases� and� gain� peaking�
�increases.� A� 5� ?� to� 50� ?� small� resistor� placed� between�
�OUT_� and� the� capacitive� load� reduces� peaking,� but� also�
�reduces� the� gain.� An� alternative� method� of� reducing�
�peaking� is� to� place� a� series� RC� network� (snubber)� in� par-�
�allel� with� the� capacitive� load.� The� RC� network� does� not�
�continuously� load� the� output� or� reduce� the� gain.� Typical�
�values� of� the� resistor� are� between� 100� ?� and� 200� ?� ,� and�
�the� typical� value� of� the� capacitor� is� 10nF.�
�Undervoltage� Lockout� (UVLO)�
�The� UVLO� circuit� compares� the� input� voltage� at� IN� with� the�
�UVLO� threshold� (2.25V� rising,� 2.20V� falling,� typ)� to� ensure�
�the� input� voltage� is� high� enough� for� reliable� operation.� The�
�50mV� (typ)� hysteresis� prevents� supply� transients� from�
�causing� a� restart.� Once� the� input� voltage� exceeds� the�
�UVLO� rising� threshold,� startup� begins.� When� the� input� volt-�
�age� falls� below� the� UVLO� falling� threshold,� the� controller�
�turns� off� the� main� step-up� regulator,� turns� off� the� linear-�
�regulator� outputs,� and� disables� the� switch� control� block;�
�the� operational-amplifier� outputs� are� high� impedance.�
�Reference� Voltage� (REF)�
�The� reference� output� is� nominally� 1.25V� and� can�
�source� at� least� 50μA� (see� the� Typical� Operating�
�Characteristics).� Bypass� REF� with� a� 0.22μF� ceramic�
�capacitor� connected� between� REF� and� AGND.�
�Power-Up� Sequence� and� Soft-Start�
�Once� the� voltage� on� IN� exceeds� approximately� 2.25V,� the�
�reference� turns� on.� With� a� 0.22μF� REF� bypass� capacitor,�
�the� reference� reaches� its� regulation� voltage� of� 1.25V� in�
�approximately� 1ms.� When� the� reference� voltage� exceeds�
�1.0V,� the� IC� enables� the� main� step-up� regulator,� the� gate-�
�on� linear-regulator� controller,� and� the� gate-off� linear-regu-�
�lator� controller� simultaneously.�
�The� IC� employs� soft-start� for� each� regulator� to� minimize�
�inrush� current� and� voltage� overshoot� and� to� ensure� a� well-�
�defined� startup� behavior.� Each� output� uses� a� 7-bit� soft-start�
�DAC.� For� the� step-up� and� the� gate-on� linear� regulator,� the�
�DAC� output� is� stepped� in� 128� steps� from� zero� up� to� the� ref-�
�erence� voltage.� For� the� gate-off� linear� regulator,� the� DAC�
�output� steps� from� the� reference� down� to� 250mV� in� 128�
�steps� from� zero� up� to� the� reference� voltage.� For� the� gate-�
�off� linear� regulator’s� voltage� ramp� soft-start,� the� DAC� output�
�steps� from� the� reference� down� to� 250mV� in� 128� steps.� The�
�soft-start� duration� is� 14ms� (typ)� for� all� three� regulators,� and�
�DEL� remains� pulled� down� to� AGND� during� the� soft� start�
�period.�
�Once� the� main� step-up� regulator,� the� gate-on� linear-regula-�
�tor� controller,� and� the� gate-off� linear-regulator� controller�
�reach� regulation,� a� 5μA� current� source� starts� charging�
�18�
�______________________________________________________________________________________�
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