AME8500AEEVBA26,AME8500AEEVBA26 pdf中文资料,AME8500AEEVBA26引脚图,AME8500AEEVBA26电路-Datasheet-电子工程世界

文档预览

AME, Inc.

AME8500 / 8501

Processor Supervisory

General Description

The AME8500 family allows the user to customize the

CPU reset function without any external components.

The user has a large choice of reset voltage thresholds,

reset time intervals, and output driver configurations, all

of which are preset at the factory. Each wafer is trimmed

to the customer's specifications.

These circuits monitor the power supply voltage of

µP

based systems. When the power supply voltage drops

below the voltage threshold a reset is asserted immedi-

ately (within an interval T

). The reset remains asserted

after the supply voltage rises above the voltage threshold

for a time interval, T

. The reset output may be either

active high (RESET) or active low (RESETB). The reset

output may be configured as either push/pull or open

drain. The state of the reset output is guaranteed to be

correct for supply voltages greater than 1V.

The AME8501 includes all the above functionality plus

an overtemperature shutdown function. When the ambi-

ent temperature exceeds 80

C a reset is asserted and

remains asserted until the temperature falls below 60

Space saving SOT23 packages and micropower qui-

escent current (<3.0µA) make this family a natural for

portable battery powered equipment.

Typical Operating Circuit

AME8500

RESET / RESET

GND

Processor

RESET

Input

GND

Note: * External pull-up resistor is required if open-

drain output is used. 10 kΩ is recommended.

Block Diagram

AME8500 with Push-Pull RESET

Delay

Features

Small packages: SOT-23, SOT-89

11 voltage threshold options

Tight voltage threshold tolerance ---±1.50%

5 reset interval options

4 output configuration options

Wide temperature range -------- -40

C to 85

Low temperature coefficient --- 100ppm/

(max)

Low quiescent current < 3.0µA

Thermal shutdown option (AME8501)

GND

RESET

REF

AME8500 with Push-Pull RESET

Applications

Portable electronics

Power supplies

Computer peripherals

Data acquisition systems

Applications using CPUs

Consumer electronics

Delay

RESET

GND

REF

AME, Inc.

AME8500 / 8501

Processor Supervisory

Block Diagram (contd.)

AME8500 with Open-Drain RESET

Delay

AME8500 with Open-Drain RESET

RESET

GND

REF

Delay

RESET

GND

REF

Pin Configuration

SOT-23

Top View

SOT-23

Top View

AME8500AEET

AME8501AEET

1. GND

2. Reset/ResetB

3. V

AME8500

AME8500BEET

AME8501BEET

1. Reset/ResetB

2. GND

3. V

SOT-23

Top View

SOT-23-L

Top View

AME8500CEET

AME8501CEET

1. Reset/ResetB

2. V

3. GND

AME8500

AME8500AEET

AME8501AEET

1. GND

2. Reset/ResetB

3. V

AME, Inc.

AME8500 / 8501

Processor Supervisory

Pin Configuration (contd.)

SOT-23-L

Top View

SOT-23-L

Top View

AME8500BEET

AME8501BEET

1. Reset/ResetB

2. GND

3. V

AME8500CEET

AME8501CEET

1. Reset/ResetB

2. V

3. GND

AME8500

SOT-89

Top View

AME8500AEFT

AME8501AEFT

1. GND

2. V

3. Reset/ResetB

SOT-89

Top View

AME8500BEFT

AME8501BEFT

1. Reset/ResetB

2. V

3. GND

AME8500

SOT-89

Top View

AME8500CEFT

AME8501CEFT

1. V

2. GND

3. Reset/ResetB

SOT-25

Top View

AME8500

AME8500BEEV

AME8501BEEV

1. Reset/ResetB

2. V

3. GND

4. N/C

5. N/C

Pin Description

Pin Name

GND

RESETB/RESET

Ground

This pin can be ordered as RESET or RESETB. RESET is active high.

RESETB is active low. It is also available with an open drain or pushpull

output.

Positive power supply. A reset is asserted after this voltage drops below

a predetermined level. After V

rises above that level the reset output

remains asserted until the end of the reset timeout period.

Pin Description

AME, Inc.

AME8500 / 8501

Processor Supervisory

Ordering Information

AME8500 x x x x x x x x

AME8501 x x x x x x x x

Special Feature

VDD Threshold Voltage (V

)

Reset Time (T

D2NOM

)

Output Driver Option

Number of Pins

Package Type

Operating Temperature Range

Pin Configuration

Output Driver

Number

Option

Package

Characteristic

Type

Pins

of RESET or

RESETB pin

T: 3

V: 5

Configuration

Operating

Temperature

Range

Reset

Time

D2NOM

)

VDD

Threshold

Voltage (V

)

Special

Feature

(SOT-23)

(SOT-89)

1. GND

E: -40

C to 85

C E: SOT-2X

2. Reset/

F: SOT-89

ResetB

3. VDD

1. Reset/

ResetB

2. GND

3. VDD

1. Reset/

ResetB

2. VDD

3. GND

1. GND

2. VDD

3. Reset/

ResetB

1. Reset/

ResetB

2. VDD

3. GND

1. VDD

2. GND

3. Reset/

ResetB

A: RESETB /PP A: 1.5 ms

B: RESETB /OD D: 30 ms

C: RESET/ PP E: 150 ms

D: RESET/ OD F: 210 ms

(RESET = Active High)

(RESETB = Active Low)

(PP = Push pull out)

(OD = Open drain output

polarity)

15: VTH=

16: VTH=

18: VTH=

19: VTH=

20: VTH=

21: VTH=

22: VTH=

23: VTH=

24: VTH=

26: VTH=

27: VTH=

28: VTH=

29: VTH=

31: VTH=

40: VTH=

42: VTH=

44: VTH=

46: VTH=

1.5V L: Low profile

1.6V Y: Lead free &

1.8V

Low profile

1.9V Z: Lead free

2.0V

2.1V

2.2V

2.32V

2.4V

2.63V

2.7V

2.8V

2.93V

3.08V

4.0V

4.2V

4.38V

4.63V

AME, Inc.

AME8500 / 8501

Processor Supervisory

Ordering Information

Part Number

AME8500AEETAA21

AME8500AEETAD20

AME8500AEETAE20

AME8500AEETAE21

AME8500AEETAE26

AME8500AEETAE26L

AME8500AEETAE29

AME8500AEETAE31

AME8500AEETAE46

AME8500AEETAF15

AME8500AEETAF16

AME8500AEETAF21

AME8500AEETAF23

AME8500AEETAF26

AME8500AEETAF27

AME8500AEETAF29

AME8500AEETAF31

AME8500AEETAF40

AME8500AEETAF44

AME8500AEETAF46

AME8500AEETBF31

AME8500AEETBF46

AME8500AEETCA21

AME8500AEETCA27

AME8500AEETCA46

AME8500AEETCD20

AME8500AEETCF21

AME8500AEETCF29

AME8500AEETCF31

Marking

ASVww

ALXww

AUAww

AVGww

ASJww

ALYww

AUBww

ATSww

ATDww

ATEww

ASKww

ATTww

AMPww

ATRww

AMOww

ASAww

ASBww

ARNww

ARKww

AUTww

AUUww

ASWww

AVBww

AVCww

ALZww

ATYww

ALVww

ASUww

Voltage

2.10V

2.00V

2.10V

2.63V

2.93V

3.08V

4.63V

1.50V

1.60V

2.10V

2.32V

2.63V

2.70V

2.93V

3.08V

4.00V

4.38V

4.63V

3.08V

4.63V

2.10V

2.70V

4.63V

2.00V

2.10V

2.93V

3.08V

Package

SOT-23

Operating Temp. Range

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

请教:Java 对摄像头的windows 驱动的要求(做过Lotus SameTime开发)的请进: 各位前辈达人:我们要部署Lotus视频会议系统(SameTime6.5）而定制了一批摄像头.问题是该摄像头在MSN2009,QQ2009,SkyPE4.1中能够正常工作,但是不能够被LotusSameTime完全检测到SameTime中给的设备类型为WDMCaptureDevices(win32),我google了一下,SameTime是基于JMF(JavaMediaFrame)开发的，好像在6.5版只支持摄像头的VFW驱动(不确定,没做过JMF相关的开...; mary00532 嵌入式系统

入门任务：点亮LED: 上星期六的下午，琳子姐给我寄的430板子到了。拿来后，我只是拆开来看了看，然后就忙别的事情......这些天事情还真多啊。然后昨天想玩一玩，首先插进光盘，感慨这光盘怎么先进，直接就连到网络上去——其实我想骂它该死，要是能直接打开多好......后来想想可能资料太多了。不过还好，咱好像已经不担心没网了。习惯性把所有的资料都翻了翻，下载。不过最有建设性意义的就是下载了那个IAR。然后安装了，但是对着它，半天不知道是什么。这事干了一个下午，主要是...; 辛昕微控制器 MCU

串联谐振在石油中应用范围如何: 普通人对一些化工生产的流程可能不是非常熟悉，或者是对一些工业生产并不是非常了解，因为它可能对人们的生活不是非常贴近，只有那些比较贴近人们日常生活接触到的东西，人们可能会了解一些，像这种比较专业的工业生产，大家可能不是非常的熟悉，那么其中有一个叫做串联谐振的仪器，在工业生产中应用的非常广泛，其中它就会用到一个非常重要的行业叫做石油。可能石油对大家来说也是非常熟悉的，因为有只要家里汽车的都会用到汽油这一方面，那么汽油就是从石油中冶炼出来一种的产物。即使石油在人们生活和生产过程中都是非常重要的...; ZXCQWEASD 模拟电子

[B-G431B-ESC1评测] 七，板载旋钮ADC采样: 在论坛里看见有的小伙伴使用B-G431B-ESC1开发板的ADC采样旋钮的电压一直都是0V，于是我挑战一下。一、硬件确认3DPCB确认引脚经过万用表测量，确认电压会随着旋钮的变化而变化，由0V-3.3V之间变化。二、软件初始化CubeMx配置配置PB12为ADC，默认分配为ADC111通道ADC只有一根线，所以配置为单端ADC配置以上CubeMx配置ADC初始化完毕代码配...; dvacos 电机驱动控制（Motor Control）

单片机系统中最常用的三种通信协议解析: 顾名思义就是串行外围设备接口。SPI是一种高速的、全双工、同步通信总线，标准的SPI也仅仅使用4个引脚，常用于单片机和EEPROM、FLASH、实时时钟、数字信号处理器等器件的通信。SPI通信原理比I2C要简单，它主要是主从方式通信，这种模式通常只有一个主机和一个或者多个从机，标准的SPI是4根线，分别是SSEL（片选，也写作SCS）、SCLK（时钟，也写作SCK）、MOSI（主机输出从机输入MasterOutput/SlaveInput）和MISO（主机...; Aguilera 微控制器 MCU

请问现在的数码相机保存一个1M左右的图片需要多长时间，大体时间，不需要很精确的: 请问现在的数码相机保存一个1M左右的图片需要多长时间，大体时间，不需要很精确的请问现在的数码相机保存一个1M左右的图片需要多长时间，大体时间，不需要很精确的这个取决于硬件的读写速度,以及软件操作的效率...我们朋友的800W相素的机器能拍两M的PP感觉不到卡,两三秒吧...希望大家都来说说...; blacksmith 嵌入式系统