EL5525IRE-T7,EL5525IRE-T7 pdf中文资料,EL5525IRE-T7引脚图,EL5525IRE-T7电路-Datasheet-电子工程世界

文档预览

EL5525

NEW DESIGNS

NOT RECOMMENDED FOR

EMENT

NO RECOMMENDED REPLAC

ort Center at

contact our Technical Supp

ersil.com/tsc

1-888-INTERSIL or www.int

DATASHEET

FN7393

Rev 2.00

September 21, 2010

18-Channel TFT-LCD Reference Voltage Generator

The EL5525 is designed to produce the reference voltages

required in TFT-LCD applications. Each output is

programmed to the required voltage with 10 bits of

resolution. Reference pins determine the high and low

voltages of the output range, which are capable of swinging

to either supply rail. Programming of each output is

performed using the serial interface. A serial out pin enables

daisy chaining of multiple devices.

A number of the EL5525 can be stacked for applications

requiring more than 18 outputs. The reference inputs can be

tied to the rails, enabling each part to output the full voltage

range, or alternatively, they can be connected to external

resistors to split the output range and enable finer

resolutions of the outputs.

The EL5525 has 18 outputs and comes in a 38-pin HTSSOP

package. It is specified for operation over the full -40°C to

+85°C temperature range.

Features

• 18-channel Reference Outputs

• Accuracy of ±0.1%

• Supply Voltage of 4.5V to 16.5V

• Digital Supply 3.3V to 5V

• Low Supply Current of 15mA

• Rail-to-Rail Capability

• Internal Thermal Protection

• Pb-Free Available (RoHS Compliant)

Applications

• TFT-LCD Drive Circuits

• Reference Voltage Generators

Ordering Information

PART

NUMBER

(Note)

EL5525IREZ*

EL5525IREZ-T7*

PART

MARKING

TEMP

RANGE

(°C)

PACKAGE

(Pb-free)

PKG.

DWG.

NUMBER

Pinout

EL5525

(38-PIN HTSSOP)

TOP VIEW

ENA 1

SDI 2

SCLK 3

SDO 4

EXT_OSC 5

VS 6

VSD 7

NC 8

NC 9

OSC_SELECT 10

VS 11

REFH 12

REFL 13

GND 14

CAP 15

VS 16

NC 17

OUTR 18

OUTQ 19

THERMAL

PAD

38 OUTA

37 OUTB

36 OUTC

35 GND

34 OUTD

33 OUTE

32 OUTF

31 OUTG

30 OUTH

29 OUTI

28 GND

27 OUTJ

26 OUTK

25 OUTL

24 GND

23 OUTM

22 OUTN

21 OUTO

20 OUTP

5525IREZ -40 to +85 38-Pin HTSSOP MDP0048

EL5525IREZ-T13* 5525IREZ -40 to +85 38-Pin HTSSOP MDP0048

*Please refer to TB347 for details on reel specifications.

NOTE: These Intersil Pb-free plastic packaged products employ special

Pb-free material sets, molding compounds/die attach materials, and 100%

matte tin plate plus anneal (e3 termination finish, which is RoHS compliant

and compatible with both SnPb and Pb-free soldering operations). Intersil

Pb-free products are MSL classified at Pb-free peak reflow temperatures

that meet or exceed the Pb-free requirements of IPC/JEDEC J STD-020.

FN7393 Rev 2.00

September 21, 2010

Page 1 of 10

EL5525

Absolute Maximum Ratings

= +25°C)

Supply Voltage

Between V

and GND . . . . . . . . . . . . . . . . 4.5V(min) to 18V(max)

Between V

and GND . . . . . . . . . . . 3V(min) to V

and +7(max)

Maximum Continuous Output Current . . . . . . . . . . . . . . . . . . . 30mA

Thermal Information

Maximum Die Temperature . . . . . . . . . . . . . . . . . . . . . . . . . . +125°C

Storage Temperature . . . . . . . . . . . . . . . . . . . . . . . .-65°C to +150°C

Pb-Free Reflow Profile. . . . . . . . . . . . . . . . . . . . . . . . .see link below

http://www.intersil.com/pbfree/Pb-FreeReflow.asp

Operating Conditions

Ambient Operating Temperature . . . . . . . . . . . . . . . .-40°C to +85°C

CAUTION: Do not operate at or near the maximum ratings listed for extended periods of time. Exposure to such conditions may adversely impact product reliability and

result in failures not covered by warranty.

IMPORTANT NOTE: All parameters having Min/Max specifications are guaranteed. Typ values are for information purposes only. Unless otherwise noted, all tests are

at the specified temperature and are pulsed tests, therefore: T

= T

Electrical Specifications

PARAMETER

SUPPLY

ANALOG

PSRR

V

MIS

DROOP

INH

REG

DIGITAL

CLK

DCO

SDIN

PULSE

Duty Cycle

F_OSC

INL

DNL

Supply Current

= 15V, V

= 5V, V

REFH

= 13V, V

REFL

= 2V,

= 1.5k and

= 200pF to 0V, T

= +25°C, unless

otherwise specified.

CONDITIONS

MIN

TYP

MAX

UNIT

DESCRIPTION

No load

0.17

0.35

Digital Supply Current

Output Swing Low

Output Swing High

Short Circuit Current

Power Supply Rejection Ratio

Program to Out Delay

Accuracy Referred to the Ideal Value

Channel to Channel Mismatch

Droop Voltage

Input Resistance @ V

REFH

, V

REFL

Load Regulation

Band Gap

Sinking 5mA (V

REFH

= 15V, V

REFL

= 0)

Sourcing 5mA (V

REFH

= 15V, V

REFL

= 0)

= 10

+ is moved from 14V to 16V

Code = 512

14.85

100

14.95

140

150

mV/ms

k

OUT

= 5mA step

1.1

0.5

1.3

1.5

1.6

mV/mA

Logic 1 Input Voltage

Logic 0 Input Voltage

Clock Frequency

Setup Time

Hold Time

Load to Clock Time

Clock to Load Line

Clock to Out Delay Time

DIN

Input Resistance

Minimum Pulse Width for EXT_OSC

Signal

Duty Cycle for EXT_OSC Signal

Internal Refresh Oscillator Frequency

Integral Nonlinearity Error

Differential Nonlinearity Error

OSC_Select = 0

Negative edge of SCLK

1.3

0.5

MHz

G

µs

kHz

LSB

FN7393 Rev 2.00

September 21, 2010

Page 2 of 10

EL5525

Pin Descriptions

PIN NUMBER

6, 11, 16

8, 9, 17

14, 24, 28, 35

PIN NAME

ENA

SDI

SCLK

SDO

EXT_OSC

VSD

OSC_SELECT

REFH

REFL

GND

CAP

OUTR

OUTQ

OUTP

OUTO

OUTN

OUTM

OUTL

OUTK

OUTJ

OUTI

OUTH

OUTG

OUTF

OUTE

OUTD

OUTC

OUTB

OUTA

Analog Input

Power

Analog

Analog Output

PIN TYPE

Logic Input

Logic Output

Input/Output

Power

PIN DESCRIPTION

Chip select, low enables data input to logic

Serial data input

Serial data clock

Serial data output

Oscillator pin for synchronizing

Positive supply voltage for analog circuits (4.5V to 16.5V)

Positive power supply for digital circuites (3.3V to 5V)

Not connected

Oscillator select, “0” = internal, “1” = external

High reference voltage

Low reference voltage

Ground

Decoupling capacitor for internal reference

Channel R output voltage

Channel Q output voltage

Channel P output voltage

Channel O output voltage

Channel N output voltage

Channel M output voltage

Channel L output voltage

Channel K output voltage

Channel J output voltage

Channel I output voltage

Channel H output voltage

Channel G output voltage

Channel F output voltage

Channel E output voltage

Channel D output voltage

Channel C output voltage

Channel B output voltage

Channel A output voltage

FN7393 Rev 2.00

September 21, 2010

Page 3 of 10

EL5525

Typical Performance Curves

DIFFERENTIAL NONLINEARITY (LSB)

0.3

0.2

0.1

-0.1

-0.2

-0.3

= 15V

= 5V

210

REFH

= 13V

REFL

= 2V

410

610

810

1010

INL (LSB)

0.5

REFH = 13V, REFL = 2V

1.5

-0.5

-1

200

400

600

CODE

800

1000

1200

INPUT CODE

FIGURE 1. DIFFERENTIAL NONLINEARITY vs CODE

FIGURE 2. INTEGRAL NONLINEARITY ERROR

= V

REFH

= 15V

= V

REFH

= 15V

0mA

5mA

= 4.7nF

= 20

5mA/DIV

5mA

0mA

=1nF

= 20

5mA/DIV

200mV/DIV

= 1nF

= 20

= 180pF

M = 400ns/DIV

= 180pF

M = 400ns/DIV

= 4.7nF

= 20

200mV/DIV

FIGURE 3. TRANSIENT LOAD REGULATION (SOURCING)

FIGURE 4. TRANSIENT LOAD REGULATION (SINKING)

SCLK

SDA

ENA

OUTA

SDA

ENA

OUTA

M = 200µs/DIV

FIGURE 5. LARGE SIGNAL RESPONSE (RISING FROM 0V

TO 8V)

FIGURE 6. SMALL SIGNAL RESPONSE (FALLING FROM

200mV TO 100mV)

FN7393 Rev 2.00

September 21, 2010

Page 4 of 10

EL5525

General Description

The EL5525 provides a versatile method of providing the

reference voltages that are used in setting the transfer

characteristics of LCD display panels. The V/T

(Voltage/Transmission) curve of the LCD panel requires that

a correction is applied to make it linear; however, if the panel

is to be used in more than one application, the final curve

may differ for different applications. By using the EL5525,

the V/T curve can be changed to optimize its characteristics

according to the required application of the display product.

Each of the eight reference voltage outputs can be set with a

10-bit resolution. These outputs can be driven to within

50mV of the power rails of the EL5525. As all of the output

buffers are identical, it is also possible to use the EL5525 for

applications other than LCDs where multiple voltage

references are required that can be set to 10 bit accuracy.

together, connect the SDO pin to the SDI pin on the next

chip. While the ENA is held low, the 16m-bit data is loaded to

the SDI input of the first chip. The first 16-bit data will go to

the last chip and the last 16-bit data will go to the first chip.

While the ENA is held high, all addressed outputs will be

updated simultaneously.

The Serial Timing Diagram and parameters table show the

timing requirements for three-wire signals.

The serial data has a minimum length of 16 bits, the MSB

(most significant bit) is the first bit in the signal. The bits are

allocated to the following functions (also refer to Table 1).

• Bit 15 is always set to a zero

• Bits 14 through 10 select the channel to be written to, these

are binary coded with channel A = 0, and channel R = 17

• The 10-bit data is on bits 9 through 0. Some examples of

data words are shown in Table 3.

TABLE 1. CONTROL BITS LOGIC TABLE

BIT

B15

B14

B13

B12

B11

B10

NAME

Test

DESCRIPTION

Always 0

Channel Address

Data

Digital Interface

The EL5525 uses a simple 3-wire SPI compliant digital

interface to program the outputs. The EL5525 can support

the clock rate up to 5MHz.

Serial Interface

The EL5525 is programmed through a three-wire serial

interface. The start and stop conditions are defined by the

ENA signal. While the ENA is low, the data on the SDI (serial

data input) pin is shifted into the 16-bit shift register on the

positive edge of the SCLK (serial clock) signal. The MSB

(bit 15) is loaded first and the LSB (bit 0) is loaded last (see

Table 1). After the full 16-bit data has been loaded, the ENA

is pulled high and the addressed output channel is updated.

The SCLK is disabled internally when the ENA is high. The

SCLK must be low before the ENA is pulled low.

To facilitate the system designs that use multiple EL5525

chips, a buffered serial output of the shift register (SDO pin)

is available. Data appears on the SDO pin at the 16th falling

SCLK edge after being applied to the SDI pin.

To control the multiple EL5525 chips from a single three-wire

serial port, just connect the ENA pins and the SCLK pins

Serial Timing Diagram

ENA

SCLK

SDI

B15

MSB

B14

B13

B12-B2

LSB

LOAD MSB FIRST, LSB LAST

FN7393 Rev 2.00

September 21, 2010

Page 5 of 10

型号	EL5525IRE-T7	EL5525IREZ	EL5525IREZ-T13	EL5525	EL5525IRE	EL5525IRE-T13
描述	18-Channel TFT-LCD Reference Voltage Generator	18-Channel TFT-LCD Reference Voltage Generator	18-Channel TFT-LCD Reference Voltage Generator	18-Channel TFT-LCD Reference Voltage Generator	18-Channel TFT-LCD Reference Voltage Generator	18-Channel TFT-LCD Reference Voltage Generator

出来混总是要还的。。。: 在研究c2000的编程和instaspi foc 时，看一些原理图比较吃力，发现相关的电路，电路板的...; Mavine 微控制器 MCU

DIY廉价CPLD学习板: 这是我DIY的一款CPLD学习板 DIY的目的就是为了学习和了解CPLD的开发流程，所以呢功...; chenzhufly DIY/开源硬件专区

【SAMR21新玩法】13. 读取X-NUCLEO-IKS01A3的传感器: 前一段时间论坛进行了ST的X-NUCLEO-IKS01A3评测活动，我也有幸参与，还编写了Make...; dcexpert MicroPython开源版块

基于边界扫描技术的电路板可测性设计分析: 现代电子技术的高速发展对传统的电路测试技术提出了新的挑战。器件封装的小型化、表面贴装(SMT)技术的...; songrisi PCB设计

＃以拆会友＃防静电手环: 可能我这个真的很低端，毕竟我基本是完全的新手，觉得好奇就拆开看了下，顺带分享这是某工厂内使用的一款...; abcdot 以拆会友

三块ST开发板NUCLEO-F410RB等你来测: 三块NUCLEO-F410RB开发板，你想测评吗？跟帖说下你的测评时间和想测评计划本周内将从跟...; eric_wang DIY/开源硬件专区

LED无频闪技术探析：无PFC的BUCK电路

关于无频闪的研究，从电源层面来看是最直观的，其实就是关于“频率”的问题，超高频人眼跟CCD探头都不会有感觉，低频人眼和CCD探头都会有直观的感受。实现无频闪的方式要么做超高频直流输出，要么就真正去除或者降低直流中的纹波含量。　　在“ LED 无频闪技术之被动PFC（填谷电路）”和“LED无频闪技术之两级电路”中，我们介绍了功率因数的重要性和如何实现功率因数补偿。明确的知道功率因数的高低不会影响...[详细]
Uber车祸影响，激光雷达商业化进程会受影响吗？

Uber 无人驾驶汽车在亚利桑那州的致命车祸已经过去一周时间，随着一段行车记录仪的视频被曝光，背后牵扯出众多与自动驾驶技术相关的供应商。这起事故引发的最大的问题是，为何无人驾驶汽车没有把行人识别出来？这也直接把矛头指向了自动驾驶汽车的“眼睛”—— 激光雷达传感器。激光雷达或处于关闭 “坐在汽车里，我能感到它在走，但是我往车外看，只能看到一片漆黑。结果令人惊喜，车辆准确地沿着蜿蜒的...[详细]
一种二极管箝位型五电平三相逆变器电源电路设计

二极管箝位型五电平三相逆变器电路: 分压电容C1=C2=C3=C4，因此VC1=VC2=VC3=VC4=Vdc/4;Da1、Da2、Da3、Da1′、Da2′、Da3′为箝位二极管，通过二极管箝位，每一个开关器件将承受一个电容上的电压即Vdc/4。每相桥臂有8 个开关器件串联，其中每4 个开关器件同时处于导通或关断状态，构成4 个互补的开关器件对(Sa1,Sa1′),(Sa2,Sa2′...[详细]
在制造环境中实施RoHS

Alex Chen, Heather McCormick, Daniel Tan and Matthew Kelly Celestica Inc. 　　背景　　随着2006年7月1日RoHS实施时间限日期的日益临近，越来越多的电子制造商不得不着手进行无铅工艺评估，同时实际开始制造符合指令要求的，不含禁止物质的产品。　　制造工艺的无铅是主要技术挑战之一，业界对这方面已有许多研究成果，但要...[详细]
医疗人工智能领域备受关注的公司有哪些？

还记得Watson吗，那个曾经参加智力竞赛节目《Jeopardy!》的超级计算机，它已经为MD癌症中心工作了好一阵子了，通过Watson的认知计算能力，从病人病例和丰富的研究资料库中寻找资料，为临床医生提供有价值的见解，从而帮助医护人员找到最有效的治疗方案。Watson还不能独立做决定，最后的诊断还要医生来拍板。IBM觉得这是一个机会，所以就推出了一个新的认知计算机健康平台——Wa...[详细]
三星全面退出 LCD 行业，LCD 大势已去了么？

1 月 31 日，三星显示集团（Samsung Display）表示，将于今年年底关停旗下在韩国和中国的所有 LCD 面板产线，三星已经彻底放弃 LCD 生产。这些工厂腾出产能后，三星将全面转向产品定位更高、利润更大的 QD-OLED 量子点显示面板（可以算是量子点与 OLED 的混合体）和 OLED 显示面板。其实三星的动作早有预兆。去年 10 月，三星就已经宣布将集中力量，对 ...[详细]
第三代红外(IR3)技术与激光红外差别

　　随着安防行业的发展，24小时不间断的监控对夜视要求越来越高，红外技术经历了不同时期的发展，已广泛应用于监控夜视领域。　　在夜视领域的发展过程中，从第一代传统LED红外，阵列式红外，激光红外，红外热像仪，到目前全球首推的第三代红外技术，红外夜视领域经历了一场场红外技术新革命，引领着夜视监控行业向更深更远的方向发展，给安防市场制造着一个又一个亮点。　　红外技术早在60年代初期由美国贝...[详细]
Atmel的激光二极管驱动器IC用于高清DVD驱动

????? Atmel公司最新推出一款激光二极管驱动器ATR0885，主要用于组合的HD-DVD/Blu-ray、DVD、CD播放器和PC CD-ROM的驱动。 ????? 采用小封装的ATR0885非常适合笔记本电脑上应用的小型SLIM驱动以及桌面型电脑和DVD播放器中的半高驱动器。该器件是业内首个同类产品，对于大批量生产消费电子产品具有极高的成本效率。 ????? ATR0885具有3个...[详细]
凌力尔特公司推出 LT3032 新版本

加利福尼亚州米尔皮塔斯 (MILPITAS, CA) – 2012 年 4 月 19 日 – 凌力尔特公司 (Linear Technology Corporation) 推出具高可靠性 MP 级和更宽温度范围的 LT3032 新版本，该器件是双通道、低噪声、正/负低压差电压线性稳压器。在满负载时，它在每通道上以 300mV 压差提供高达 ±150mA 的连续输出电流。LT3032 具有 ±2....[详细]
全球首发：异形全面屏手机发布

近日，三款手机同时发布，分别是OPPO R11巴萨定制款、黑莓物理键盘手机KEYone以及夏普AQUOS S2。其中，夏普AQUOS S2因是第一款异形全面屏手机而备受瞩目，据悉，其屏幕占比高达87.5%。下面就随手机便携小编一起来了解一下相关内容吧。 InFocus手机全球CEO罗忠生博士在发布会上表示，此次发布的AQUOS S2是夏普发布的第29款全面屏手机，其最大的优势之一在于其凭借异...[详细]
德州仪器推出体积最小的DLP 1080p芯片组

全新芯片组现已出货提供给各大光学模组制造商进行测试；第三方合作伙伴正着手开发光学引擎德州仪器（TI）（纳斯纳克交易代码：TXN）今日宣布，其用于视频和数据显示应用的0.47英寸TRP全高清1080p芯片组已出货提供给第三方开发人员进行测试。该芯片组采用了已在全世界80%以上数字剧院应用和验证的DLP Cinema®技术，是目前德州仪器旗下能使小型电子设备实现更亮、更高效的全高清成像的...[详细]
基于STM32CubeIDE软件实现的STM32外部中断实例

本文用STM32CubeIDE软件实现STM32外部中断实例。新建工程 “File”-“New”-“STM32 Project”。输入芯片型号STM32F103ZE。选择相应封装，下一步。填写项目名，选择工程位置，下一步。配置时钟、调试模式选择高速外部时钟。 HCLK总线时钟处输入72，回车，配置使用最高时钟频率。调试模式选择串行，方便下载程序。配置管...[详细]
单片机最小系统解析(电源、晶振和复位电路)

电源我们在学习过程中，很多指标都是直接用的概念指标，比如我们说 +5 V 代表1，GND 代表0等等。但在实际电路中的电压值并不是完全精准的，那这些指标允许范围是什么呢？随着我们所学的内容不断增多，大家要慢慢培养一种阅读数据手册的能力。比如，我们要使用 STC89C52RC 单片机的时候，找到它的数据手册第11页，看第二项——工作电压：5.5 V～3.4 V（5 V 单片机），这个地方就说明...[详细]
研究发现植物人可通过脑部扫描仪对外交流

　　英国和比利时研究人员发现，一些植物人看似失去意识，而实际上他们能听懂、甚至回答简单问题，只是“心声”深锁躯体，无法外传。通过脑部扫描仪，他们可以与外界交流。　　以上研究结果于3日发表在美国《新英格兰医学杂志》周刊网站上。交流“心声” 　　研究人员首先研究了一名29岁男性植物人。这名男子2003年发生车祸，昏迷两年后被诊断为“持续性植物状态”(PVS)，即国际医学界定义的植物人...[详细]
里卡多携手捷豹路虎等公司研发新一代电动机

里卡多拟携手捷豹路虎以及科巴姆科技，共同研发新一代电动机，该研发项目将由英国技术战略委员会提供一部分资金支持。在该合作项目中，科巴姆将负责开发多物理场软件并寻求设计、模拟以及分析高效轻量化电动机的方法，并避免使用昂贵的磁性材料。捷豹路虎以及里卡多将运用这些新的软件工具，设计和生产一台原型开关磁阻电机，满足豪华混合动力汽车的需求。该项目是获得英国技术战略委员会以及英国...[详细]