电子工程世界电子工程世界
Datasheet
型号
  • 型号
  • 关键词
X
首页
技术
模拟电子
单片机
半导体
电源管理
嵌入式
传感器
应用
汽车电子
工业控制
家用电子
手机便携
安防电子
医疗电子
网络通信
测试测量
物联网
大学堂
首页
直播
专题
TI 培训
论坛
TI 技术论坛
ST MEMS 传感器技术
单片机
电机驱动控制
模拟电子
电源技术
PCB 设计
RF/无线
电子竞赛
DIY/开源硬件专区
颁奖专区
活动中心
直播
发现活动
颁奖区
电子头条
参考设计
下载中心
分类资源
文集
排行榜
电路图
Datasheet
首页 > 器件类别 >

AME8501CEFTAF27

UProcessor Supervisory

厂商名称:安茂微电子(AME)

下载文档
文档预览
AME, Inc.
AME8500 / 8501
µ
Processor Supervisory
n
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
D1
). The reset remains asserted
after the supply voltage rises above the voltage threshold
for a time interval, T
D2
. 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
o
C a reset is asserted and
remains asserted until the temperature falls below 60
o
C.
Space saving SOT23 packages and micropower qui-
escent current (<3.0µA) make this family a natural for
portable battery powered equipment.
n
Typical Operating Circuit
2
V
CC
*
V
CC
AME8500
RESET / RESET
GND
Processor
RESET
Input
GND
3
Note: * External pull-up resistor is required if open-
drain output is used. 10 kΩ is recommended.
n
Block Diagram
AME8500 with Push-Pull RESET
V
DD
R1
I1
P1
Delay
n
Features
l
Small packages: SOT-23, SOT-89
l
11 voltage threshold options
l
Tight voltage threshold tolerance ---±1.50%
l
5 reset interval options
l
4 output configuration options
l
Wide temperature range -------- -40
o
C to 85
o
C
l
Low temperature coefficient --- 100ppm/
o
C
(max)
l
Low quiescent current < 3.0µA
l
Thermal shutdown option (AME8501)
V
DD
GND
RESET
N1
R2
V
REF
AME8500 with Push-Pull RESET
n
Applications
l
l
l
l
l
l
Portable electronics
Power supplies
Computer peripherals
Data acquisition systems
Applications using CPUs
Consumer electronics
R1
I1
P1
Delay
RESET
N1
R2
GND
V
REF
1
AME, Inc.
AME8500 / 8501
µ
Processor Supervisory
n
Block Diagram (contd.)
AME8500 with Open-Drain RESET
V
DD
R1
I1
V
DD
R1
Delay
AME8500 with Open-Drain RESET
I1
RESET
N1
GND
R2
V
REF
Delay
RESET
N1
R2
GND
V
REF
n
Pin Configuration
SOT-23
Top View
3
SOT-23
Top View
AME8500AEET
AME8501AEET
1. GND
2. Reset/ResetB
3. V
DD
3
AME8500
AME8500
AME8500BEET
AME8501BEET
1. Reset/ResetB
2. GND
3. V
DD
1
2
1
2
SOT-23
Top View
3
SOT-23-L
Top View
AME8500CEET
AME8501CEET
1. Reset/ResetB
2. V
DD
3. GND
3
AME8500
AME8500
AME8500AEET
AME8501AEET
1. GND
2. Reset/ResetB
3. V
DD
1
2
1
2
2
AME, Inc.
AME8500 / 8501
µ
Processor Supervisory
n
Pin Configuration (contd.)
SOT-23-L
Top View
3
SOT-23-L
Top View
AME8500BEET
AME8501BEET
1. Reset/ResetB
2. GND
3. V
DD
3
AME8500CEET
AME8501CEET
1. Reset/ResetB
2. V
DD
3. GND
AME8500
AME8500
1
2
1
2
SOT-89
Top View
AME8500AEFT
AME8501AEFT
1. GND
2. V
DD
3. Reset/ResetB
SOT-89
Top View
AME8500BEFT
AME8501BEFT
1. Reset/ResetB
2. V
DD
3. GND
AME8500
AME8500
1
2
3
1
2
3
SOT-89
Top View
AME8500CEFT
AME8501CEFT
1. V
DD
2. GND
3. Reset/ResetB
5
SOT-25
Top View
4
AME8500
AME8500
AME8500BEEV
AME8501BEEV
1. Reset/ResetB
2. V
DD
3. GND
4. N/C
5. N/C
1
2
3
1
2
3
n
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
DD
rises above that level the reset output
remains asserted until the end of the reset timeout period.
Pin Description
V
DD
3
AME, Inc.
AME8500 / 8501
µ
Processor Supervisory
n
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
TH
)
Reset Time (T
D2NOM
)
Output Driver Option
Number of Pins
Package Type
Operating Temperature Range
Pin Configuration
Output Driver
Number
Option
Package
of
Characteristic
Type
Pins
of RESET or
RESETB pin
T: 3
V: 5
Pin
Configuration
Operating
Temperature
Range
Reset
Time
(T
D2NOM
)
VDD
Threshold
Voltage (V
TH
)
Special
Feature
A
(SOT-23)
B
(SOT-23)
C
(SOT-23)
A
(SOT-89)
B
(SOT-89)
C
(SOT-89)
1. GND
E: -40
O
C to 85
O
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
4
AME, Inc.
AME8500 / 8501
µ
Processor Supervisory
n
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
ASJww
ALYww
AUBww
ATSww
ATDww
ATEww
ASKww
ATTww
AMPww
ATRww
AMOww
ASAww
ASBww
ARNww
ARKww
AUTww
AUUww
ASWww
AVBww
AVCww
ALZww
ATYww
ALVww
ASUww
V
TH
Voltage
2.10V
2.00V
2.00V
2.10V
2.63V
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
SOT-23
SOT-23
SOT-23
SOT-23
SOT-23
SOT-23
SOT-23
SOT-23
SOT-23
SOT-23
SOT-23
SOT-23
SOT-23
SOT-23
SOT-23
SOT-23
SOT-23
SOT-23
SOT-23
SOT-23
SOT-23
SOT-23
SOT-23
SOT-23
SOT-23
SOT-23
SOT-23
SOT-23
Operating Temp. Range
- 40
o
C to + 85
o
C
- 40
o
C to + 85
o
C
- 40
o
C to + 85
o
C
- 40
o
C to + 85
o
C
- 40
o
C to + 85
o
C
- 40
o
C to + 85
o
C
- 40
o
C to + 85
o
C
- 40
o
C to + 85
o
C
- 40
o
C to + 85
o
C
- 40
o
C to + 85
o
C
- 40
o
C to + 85
o
C
- 40
o
C to + 85
o
C
- 40
o
C to + 85
o
C
- 40
o
C to + 85
o
C
- 40
o
C to + 85
o
C
- 40
o
C to + 85
o
C
- 40
o
C to + 85
o
C
- 40
o
C to + 85
o
C
- 40
o
C to + 85
o
C
- 40
o
C to + 85
o
C
- 40
o
C to + 85
o
C
- 40
o
C to + 85
o
C
- 40
o
C to + 85
o
C
- 40
o
C to + 85
o
C
- 40
o
C to + 85
o
C
- 40
o
C to + 85
o
C
- 40
o
C to + 85
o
C
- 40
o
C to + 85
o
C
- 40
o
C to + 85
o
C
5
查看更多>
第二批名单的朋友,板子将五一后发放
各位,不好意思!由于第二批板子是恩智浦额外添加送给坛子里的朋友的,所以准备需要一定的时间。板子没法赶在五一前送到大家的手里了,希望大家在此期间多多预习功课,准备全资料,刚好也可以趁假期好好放松下,回来后,精力充沛地玩转板子。五一回来后,我们会在得到板子第一时间后发给大家。第二批名单的朋友,板子将五一后发放等五一吧!准备资料先,不过那个奖品没有心得就不好拿了,只能上传资料啦!!多找资料吧!!!大家找资料吧!!!看来得要耐心的等了还在工作...
soso NXP MCU
线性充电器的基本功能
作者:德州仪器PearlCao随着内置功能越来越多,越来越智能的电子设备在更具吸引力的同时也更加耗电,可充电电池因此成为了一个经济的选择。近年来,随着创新应用、新兴技术和新电池化学成分的出现,充电器的需求不断发展。例如,可穿戴设备领域的新应用(如智能银行卡、智能服装和医疗贴片)引领着解决方案变得更小巧便宜,同时也推动着电池朝更小更高功率密度的方向发展。设计师的典型问题或疑虑包括:“我如何最大限度地延长电池的使用时间?”“我如何延长产品的保质期?”“是否有可能...
qwqwqw2088 模拟与混合信号
有一张图我想把它变成uc/gui中所支持的数据
用的RTT+uc/GUI图片的格式要求如下GUI_CONST_STORAGEGUI_BITMAPpicture={128,/*XSize*/128,/*YSize*/256,/*BytesPerLine*/16,/*BitsPerPixel*/(unsignedchar*)acItem_test,/*Pointertopicturedata*/NULL/*Pointertopalette*/,GUI...
mark0908 实时操作系统RTOS
AI挑战营第一站#pytorch训练MNIST数据集实现
参考CPU安装pytorch流程安装环境https://blog.csdn.net/qiaoxinyu1989/article/details/135953830先安装Anaconda创建虚拟环境安装pytorch安装python开发IDEPyCharm配置python环境创建工程参考https://blog.csdn.net/miss_liangrm/article/details/136516286实验MNIST手...
打破传统 嵌入式系统
【TI首届低功耗设计大赛】如何利用IAR底层驱动操作GPIO
拿到板子后,楼主我摸索了好几天,始终不知道这底层驱动怎么玩,后来无奈之下,只好用IAR来开发金刚狼了。第一篇利用IAR提供的底层驱动来实现IO口的基本控制。1.1输出高、底电平首先打开IAR,接着接下来就建立一个空的文档。这个工程里面,包含了所有的芯片底层驱动,串口,日历,中断,串口等。打开这两个文件就可以学习关于IO口操作的程序了里面主要有输出高低电平、反转、I/O口中断等。在新建的文档下输入:例程1://跑马灯#includedriverl...
传媒学子 微控制器 MCU
VCU应用层软件开发学习求助
请问哪位坛友大佬,有关于汽车VCU应用层软件开发的相关资料和经验建议,分享一下,本人提供知识付费 VCU应用层软件开发学习求助下载中心找找,应该有...
VCU01 汽车电子