LTC1384IG#TRPBF,LTC1384IG#TRPBF pdf中文资料,LTC1384IG#TRPBF引脚图,LTC1384IG#TRPBF电路-Datasheet-电子工程世界

文档预览

LTC1384

5V Low Power RS232

Transceiver with 2 Receivers

Active in Shutdown

FEATURES

■

DESCRIPTIO

■

Operates from a Single 5V Supply

Low Supply Current: I

= 220µA

= 35µA in Shutdown Mode with Both

Receivers Kept Alive

ESD Protection Over

±10kV

Uses Small Capacitors: 0.1µF

Operates to 120kBaud

Output Overvoltage Does Not Force Current

Back into Supplies

RS232 I/O Lines Can Be Forced to

±25V

Without Damage

Pin Compatible with LT1180A

The LTC

1384 is an ultra-low power 2-driver/2-receiver

RS232 transceiver that operates from a single 5V

supply. The charge pump requires only four space-

saving 0.1µF capacitors.

The transceiver operates in one of two modes, Normal and

Shutdown. In the Normal mode, I

is only 220µA with the

driver outputs unloaded. In the Shutdown mode, the

charge pump is turned off, the driver outputs are forced

into three-state, both receivers are kept active and I

drops to 35µA. The receiver outputs may be forced into

three-state at any time using the receiver enable (RX EN)

pin.

The LTC1384 is fully compliant with all data rate and

overvoltage RS232 specifications. The transceiver can

operate up to 120kbaud with a 2500pF, 3kΩ load. Both

driver outputs and receiver inputs can be forced to

±25V

without damage and can survive multiple

±10kV

ESD strikes.

, LTC and LT are registered trademarks of Linear Technology Corporation.

APPLICATIO S

■

Notebook Computers

Palmtop Computers

TYPICAL APPLICATIO

0.1µF

300k

LOGIC INPUT

LOGIC OUTPUT

LTC1384

300k

2-Drivers/2-Receivers with Shutdown

and Receiver Enable

0.1µF

QUIESCENT CURRENT (µA)

Quiescent and Shutdown Supply Current

vs Temperature

1200

TEST CONDITION: V

= 5V

1000

0.1µF

= 5V

800

600

400

200

–20

LOGIC INPUT

232 OUTPUT

232 INPUT

LOGIC OUTPUT

ON/OFF

232 INPUT

RX EN

LTC1384 • TA01

SHUTDOWN CURRENT (µA)

SHUTDOWN

CURRENT

QUIESCENT

CURRENT

TEMPERATURE (°C)

LTC1384 • TA02

1384fa

LTC1384

ABSOLUTE

AXI U

RATI GS

Short-Circuit Duration

................................................................... 30 sec

–

................................................................... 30 sec

Driver Output .............................................. Indefinite

Receiver Output .......................................... Indefinite

Operating Temperature Range

LTC1384C ............................................... 0°C to 70°C

LTC1384I ............................................ – 40°C to 85°C

Storage Temperature Range ................. – 65°C to 150°C

Lead Temperature (Soldering, 10 sec)................. 300°C

Supply Voltage (V

) ................................................ 6V

Input Voltage

Driver ....................................... – 0.3V to V

+ 0.3V

Receiver ............................................... – 25V to 25V

Digital Input ............................... – 0.3V to V

+ 0.3V

Output Voltage

Driver .................................................... – 25V to 25V

Receiver .................................... – 0.3V to V

+ 0.3V

PACKAGE/ORDER I FOR ATIO

TOP VIEW

RX EN

20 ON/OFF

19 VCC

18 GND

17 TR1 OUT

16 RX1 IN

15 RX1 OUT

14 TR1 IN

13 TR2 IN

12 RX2 OUT

11 NC

G PACKAGE

20-LEAD SSOP

ORDER PART

NUMBER

LTC1384CG

LTC1384IG

–

TR2 OUT

RX2 IN

NC 10

JMAX

= 125°C,

= 135°C/W

Consult LTC Marketing for parts specified with wider operating temperature ranges.

DC ELECTRICAL CHARACTERISTICS

PARAMETER

Any Driver

Output Voltage Swing

Logic Input Voltage Level

Logic Input Current

Output Short-Circuit Current

Output Leakage Current

Any Receiver

Input Voltage Thresholds

Hysteresis

Input Resistance

Output Voltage

CONDITIONS

3k to GND

The

●

denotes specifications which apply over the full operating

temperature range. V

= 5V, C1 = C2 = C3 = C4 = 0.1µF, V

ON/OFF

= V

, RX EN = 0V, unless otherwise noted.

MIN

Positive

Negative

●

Input Low Level (V

OUT

= High)

Input High Level (V

OUT

= Low)

= V

= 0V

OUT

= 0V

Shutdown or V

= 0V (Note 3), V

OUT

±10V

Input Low Threshold

Input High Threshold

– 10V

≤

10V

Output Low, I

OUT

= – 1.6mA (V

= 5V)

Output High, I

OUT

= 160µA (V

= 5V)

W W

TOP VIEW

RX EN 1

18 ON/OFF

17 V

16 GND

15 TR1 OUT

14 RX1 IN

13 RX1 OUT

12 TR1 IN

11 TR2 IN

10 RX2 OUT

SW PACKAGE

18-LEAD PLASTIC SO

ORDER PART

NUMBER

LTC1384CN

LTC1384CSW

LTC1384IN

LTC1384ISW

C1– 4

C2– 6

V– 7

TR2 OUT 8

RX2 IN 9

N PACKAGE

18-LEAD PDIP

JMAX

= 125°C,

= 65°C/W

JMAX

= 125°C,

= 85°C/W

TYP

7.0

– 6.5

1.4

– 20

±12

±10

1.3

1.7

0.4

0.2

3.2

MAX

UNITS

µA

kΩ

1384fa

5.0

– 5.0

2.0

0.8

– 40

±500

±9

●

0.8

0.1

3.0

2.4

0.4

LTC1384

DC ELECTRICAL CHARACTERISTICS

PARAMETER

Output Short-Circuit Current

Output Leakage Current

Power Supply Generator

Output Voltage

–

Output Voltage

Supply Rise Time

Power Supply

Supply Current

Supply Leakage Current (V

)

Digital Input Threshold Low

Digital Input Threshold High

The

●

denotes specifications which apply over the full operating

temperature range. V

= 5V, C1 = C2 = C3 = C4 = 0.1µF, V

ON/OFF

= V

, RX EN = 0V, unless otherwise noted.

CONDITIONS

Sinking Current, V

OUT

= V

Sourcing Current, V

OUT

= 0V

EN = V

, 0V

≤

OUT

≤

OUT

= 0mA

OUT

= 8mA

OUT

= 0mA

OUT

= – 8mA

Shutdown to Turn-On

No Load (Note 2), 0°C to 70°C

No Load (Note 2), –40°C to 85°C

Shutdown (Note 3)

●

MIN

– 15

●

TYP

– 40

8.0

7.5

– 8.0

– 7.0

0.2

0.22

0.35

1.4

MAX

UNITS

µA

0.5

1.0

0.8

2.0

µA

AC CHARACTERISTICS

PARAMETER

Slew Rate

Driver Propagation Delay

(TTL to RS232)

Receiver Propagation Delay

(RS232 to TTL)

The

●

denotes specifications which apply over the full operating temperature range.

= 5V, C1 = C2 = C3 = C4 = 0.1µF,unless otherwise noted.

CONDITIONS

= 3k, C

= 51pF

= 3k, C

= 2500pF

HLD

(Figure 1)

LHD

(Figure 1)

HLR

(Figure 2)

LHR

(Figure 2)

MIN

●

TYP

0.3

MAX

3.5

0.8

UNITS

V/µs

µs

Note 1:

Absolute Maximum Ratings are those values beyond which the life

of the device may be impaired.

Note 2:

Supply current is measured with driver and receiver outputs

unloaded.

Note 3:

Measurements made in the Shutdown mode are performed

with V

ON/OFF

= 0V.

TYPICAL PERFOR A CE CHARACTERISTICS

Driver Output Voltage

vs Temperature

DRIVER OUTPUT VOLTAGE (V)

= 3k

OUTPUT HIGH

= 5V

= 4.5V

SUPPLY CURRENT (mA)

–2

–4

–6

–8

THRESHOLD VOLTAGE (V)

OUTPUT LOW

= 4.5V

= 5V

TEMPERATURE (°C)

U W

Receiver Input Thresholds

vs Temperature

2.2

2.0

1.8

1.6

1.4

1.2

1.0

TEMPERATURE (˚C)

Supply Current vs Data Rate

= 5V

= 3k

= 2500pF

2 DRIVERS ACTIVE

100 125

DATA RATE (kBAUD)

150

175

1384fa

LTC1384

TYPICAL PERFOR A CE CHARACTERISTICS

Supply Current

vs Temperature

SHORT-CIRCUIT CURRENT (mA)

SUPPLY CURRENT (mA)

TEMPERATURE (°C)

1 DRIVER LOADED

= 3k

2 DRIVERS LOADED

= 3k

SC–

SC+

SHORT-CIRCUIT CURRENT (mA)

LTC1384 • TPC04

Driver Leakage in Shutdown

vs Temperature

LEAKAGE CURRENT (µA)

TEMPERATURE (°C)

OUT

= 20V

OUT

= –20V

LTC1384 • TPC07

U W

Driver Short-Circuit Current

vs Temperature

Receiver Short-Circuit Current

vs Temperature

SC–

SC+

TEMPERATURE (°C)

LTC1384 • TPC05

LTC1384 • TPC06

Driver Output Waveforms

DRIVER

OUTPUT

= 3k

= 2500pF

DRIVER

OUTPUT

= 3k

INPUT

Receiver Output Waveforms

RECEIVER

OUTPUT

= 51pF

INPUT

LTC1384 • TPC08

LTC1384 • TPC09

5µs/DIV

1384fa

LTC1384

PI FU CTIO S

5V Input Supply Pin. This pin should be decoupled

with a 0.1µF ceramic capacitor.

GND:

Ground Pin.

ON/OFF:

TTL/CMOS Compatible Shutdown Pin. A logic

low puts the device in the Shutdown mode independent of

the RX EN pin. The supply current of the device drops to

35µA (two receivers alive) and both driver outputs are

forced into three-state.

RX EN:

TTL/CMOS Compatible Receiver Enable Pin. A

logic high forces the receiver outputs into three-state. A

logic low enables the receiver outputs.

Positive Supply Output (RS232 Drivers). V

≅

–

2V. This pin requires an external capacitor C = 0.1µF for

charge storage. The capacitor may be tied to ground or

. With multiple devices, the V

and V

–

pins may share

a common capacitor. For large numbers of devices, in-

creasing the size of the shared common storage capaci-

tors is recommended to reduce ripple.

–

Negative Supply Output (RS232 Drivers). V

–

≅

– (2V

– 2V). This pin requires an external capacitor C = 0.1µF for

charge storage.

, C1

–

, C2

–

Commutating Capacitor Inputs. These

pins require two external capacitors C = 0.1µF: one from

to C1

–

and another from C2

to C2

–

. To maintain

charge pump efficiency, the capacitor’s effective series

resistance should be less than 2Ω.

TR IN:

RS232 Driver Input Pins. Inputs are TTL/CMOS

compatible. The inputs of unused drivers can be left

unconnected since 300k input pull-up resistors to V

are

included on chip. To minimize power consumption, the

internal driver pull-up resistors are disconnected from V

in the Shutdown mode.

TR OUT:

Driver Outputs at RS232 Voltage Levels. Outputs

are in a high impedance state when in the Shutdown or V

= 0V. The driver outputs are protected against ESD to

±10kV

for human body model discharges.

RX IN:

Receiver Inputs. These pins can be forced to

±25V

without damage. The receiver inputs are protected against

ESD to

±10kV

for human body model discharges. Each

receiver provides 0.4V of hysteresis for noise immunity.

RX OUT:

Receiver Outputs with TTL/CMOS Voltage Lev-

els. A logic high at RX EN puts the outputs into three-state.

SWITCHI G TI E WAVEFOR S

DRIVER

INPUT

DRIVER

OUTPUT

LHD

1.4V

HLD

LTC1384 • F01

Figure 1. Driver Propagation Delay Timing

INPUT

OUTPUT

LHR

1.7V

1.3V

2.4V

0.8V

HLR

LTC1384 • F02

–

Figure 2. Receiver Propagation Delay Timing

1384fa

手机上的摄像头是不是MIPI接口的？有人拆下来再利用过吗: 如果是的话，有废旧手机的，直接拆这个摄像头，就可以用在支持MIPI接口的开发板上了吧？手机上的...; nmg 国产芯片交流

cmos逻辑门电路如何快速写出输出逻辑表达式: 我想请教一下各位大佬，关于含有cmos的逻辑电路如何快速写出输出逻辑表达式，我知道有一个“串或并与...; hello_AI 模拟电子

毕业设计《汽车后视镜自动控制》，各位高手帮帮忙。: 小弟对单片机零基础，老师给的题目是《汽车后视镜自动控制》，自学了一段时间困难重重，光看书，感觉太过抽...; feizilaodi 单片机

图腾柱输出和互补推挽输出异同点: 图腾柱输出和互补推挽输出异同点 1.图腾柱输出-----...; QWE4562009 分立器件

对dim3517板子的遗憾: AM3517是基于armv7架构的高性能、低功耗的mpu，该架构的mpu在现在很多高新的消费电子产品...; yaoyabad ARM技术

反激电源几个重要的公式的总结: 反激电源设计中有几个比较重要的公式，下面给大家列一列： ...; okhxyyo 电源技术

大联大世平推出基于NXP产品的多功能低功耗蓝牙电子锁方案

2018年2月1日，致力于亚太地区市场的半导体元器件分销商--- 大联大控股宣布，其旗下世平推出基于恩智浦（NXP）QN9080的多功能低功耗蓝牙电子锁方案。大联大世平代理的NXP推出的新款蓝牙低耗芯片QN9080，它能够让智能设备的电池续航时间翻倍，这款芯片相比其他竞争对手的同类产品多节能40%。其能运行多个应用软件，并融合一种信号处理器，在“随时在线”状态下能够持续感知信号。它的动态...[详细]
三星在台推QLED 量子电视再掀面板技术规格战

三星（Samsung）今日在台湾发表QLED 量子电视，三星将QLED量子电视完美呈现予台湾市场，从量子画质（Q Picture）、量子设计（Q Style）、量子智能（QSmart）三大创新研发优势，强执顶级电视市场牛耳，再掀起面板技术规格追逐战。 IHS 显示器研究总经理谢勤益指出，量子点面板将于2017年开始主导50吋以上的规格，从WOLED有机组件进化至Quantum Dot的无机量子...[详细]
深圳抗疫战事：机器人独角兽的20天冲锋战！

“这个项目太紧急了，能不能特殊申请让我到岗？” 2月5日，深圳优必选科技接到深圳市第三人民医院抗击疫情的号召，一线医护人员工作压力大，急需科技力量辅助对患者体温排查和接诊治疗。此时，身在广州的优必选科技研究院高级产品经理谢琨为了能尽快开始机器人防疫功能的测试，向公司应急管理委员会提出了特批申请，要求到岗进行防疫机器人的紧急研发和测试。这样的申请在全国近两个月的疫情防控工作中绝不止出现过一次，...[详细]
诺基亚要出安卓手机了你还会买华为小米吗？

销声匿迹两年后，那个一秒能卖好几部的诺基亚(5.69, -0.09, -1.56%)终于要杀回来了。这次，诺基亚携两款安卓手机再战手机市场，最受影响的或许当属华为、小米等品牌。　　8月16日，诺基亚通信中国和上海贝尔联合管理团队总裁王建亚在接受记者采访时表示，诺基亚旗下的手机和平板电脑将于今年第四季度重回市场。此前，诺基亚手机业务出售给微软(57.56, 0.12, 0...[详细]
明年市场规模高达千亿，智能家居应着力于老龄化问题？

近年来，智能家居大火，有报告显示，到2018年，智能家居市场规模将达1396亿元，无论是传统家居企业还是互联网品牌都想从中分一杯羹。在日前举行的2017中国（广州）国际建筑装饰博览会上，圣象家居事业部总监宦永良接受南方日报记者采访时认为，国内部分企业推出的智能家居多是概念炒作，看似特别“高大上”，但实际上很多功能很累赘，比如手机遥控自动窗帘、自动打开电视机等。在他看来，智能化应当着力解决中国...[详细]
DTR8510变压器匝比测试仪的功能特点及应用范围

DTR-8510便携式数字变压器匝比测试仪，专用于现场检测电力变压器、电压/电流互感器。对已停电的电力变压器，DTR-8510可精确测量出变压器线圈初级与次级的匝数比，同时显示极性和测试激励电流。DTR-8510采用强固外壳设计，适用合于各种工业现场。产品特点： • 可测量功率互感器VT/PTs 和电流互感器CT 的匝数比 • 显示匝比，激励电流，绕组极性和铭牌数值的误差% • 通过外部智...[详细]
旋转编码器还可以这样设计

　　智能旋转换向编码器提供输出选项、简单调零、简化BOM和基于PC的见解　　新方法开启新机遇　　一直以来编码器用户都不愿意改变，因为一些声称可提供卓越性能和可靠性的创新电机控制技术，必须拥有出色的纪录和往绩来作为支持，才可以用于工作场地或工业装置。虽然光学编码器和磁编码器历史悠久，而且基于看似“更具体”的物理概念，但是电容式编码器亦是基于经过全面试验的原理，并且已经通过多年来在现场的成功实际应...[详细]
车牌识别技术的发展及意义_车牌识别系统原理介绍

车牌识别系统（Vehicle License Plate RecogniTIon，VLPR）是计算机视频图像识别技术在车辆牌照识别中的一种应用。车牌识别在高速公路车辆管理中得到广泛应用，电子收费（ETC）系统中，也是结合DSRC技术识别车辆身份的主要手段。车牌识别技术要求能够将运动中的汽车牌照从复杂背景中提取并识别出来，通过车牌提取、图像预处理、特征提取、车牌字符识别等技术，识别车辆牌号...[详细]
ucos-ii示例5:消息队列测试

环境：主机:WIN8 开发环境:MDK4.72 ucgui版本：3.90 ucos版本：ucos-ii mcu: stm32f103VE 说明: 本示例中task1时间片为1s，task2时间片为8s。task1每秒往消息队列写入1个数据，task2全部读取出来。所以task2每次能读到8个数据。注意： 1.消息队列需要一个指针数组指向消息 2.应该有一个固定的消息数组存储消息，不...[详细]
LED在机场照明中的使用及反馈成果

调查人员做了文献综述，并对使用过LED机场照明的个人代表进行调查。来自22个机场和航空机构的个人同意加入此次调查，并且全数完成任务(100%回收率)。此报告是对LED机场照明使用后的感受和反馈信息进行收集后得到的成果。研究结果表明，与传统机场照明技术相比，LED机场灯具降低了能源消耗和维修要求。LED机场照明系统已应用多年，其能见度和性能方面的应用反馈大部分都是正面积极的。通过技术的提...[详细]
王志勤：中国引领全球5G发展最快在19年中实现商用

中国IMT-2020(5G)推进组组长、中国信息通信研究院副院长王志勤说，从4G到5G，中国已跻身全球通信技术标准制定的总设计师之一。这会为我国移动通信产业国际化减少障碍，但更重要的是，作为领军者，要站在更高位置为移动通信产业做整体谋划。　　中国是全球5G标准的总设计师之一　　新京报：你曾说，在5G标准制定中，中国要与世界各国进行合作。中国在5G标准制定中承担了什么角色？　　王志勤...[详细]
Qorvo QPA2308 60W GaN 功率放大器登陆贸泽

专注于引入新品并提供海量库存的电子元器件分销商贸泽电子 (Mouser Electronics) 即日起开始分销Qorvo的QPA2308 MMIC 功率放大器。QPA2308专为商业和军事应用而设计，能为5至6 GHz 射频 (RF) 设计提供高功率密度和附加功率效率。这款单片微波集成电路 (MIMC) 功率放大器采用Qorvo 的0.25 um碳化硅基氮化镓 (GaN-on-SiC) 工艺制...[详细]
N76E003 标定 10Khz低速振荡器

N76E003内部有两个RC振荡器——16M（HIRC)、10K（LIRC）。高速16MHz误差在出厂时校准到±2%（全温度、全电压范围内），而10K低速振荡器，据说是35%的误差，一个小时定时，多出十几分钟就不足为奇了。以下代码源于新唐官方例程，其运行原理大概是同时使用HLRC&LIRC定时器，两者同时开启，LIRC定时固定时间，溢出后查看HIRC计数值，求出差值（时间越短越精确），用于...[详细]
C51 keil v4 流水灯简单代码的编写

#include reg52.h #include intrins.h typedef unsigned char u8;/*char 为1字节，8位 */ typedef unsigned int u16; /*一般情况下用int，因为unsigned char取值范围为0~255；而int为65535；用u16，u8使代码的可移植性高 */ #define led P0 //sbit...[详细]
科技创新推动东北全面振兴：触摸老工业基地的新脉动

写在前面这是一派新老交织、动能转换的发展新图景——颇具年代感的高大红砖厂房里，火红滚烫的铁水奔流、钢花飞溅，大型装备轰隆隆作响；自动化生产车间里，灵巧的机械手臂上下翻飞，搬运机器人匀速穿行，现代化生产气息扑面而来……站在全面 ... ...[详细]