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UAA2016/D

更新时间： 2024-01-28 22:02:33

品牌	Logo	应用领域
安森美 - ONSEMI		开关控制器
页数	文件大小	规格书
8页	132K
描述
Zero Voltage Switch Power Controller

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技术参数
数据手册

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UAA2016/D 技术参数

是否无铅：	不含铅	生命周期：	Active
零件包装代码：	DIP	包装说明：	DIP, DIP8,.3
针数：	8	Reach Compliance Code：	compliant
HTS代码：	8542.39.00.01	Factory Lead Time：	1 week
风险等级：	0.48	Samacsys Confidence：	3
Samacsys Status：	Released	2D Presentation：	https://componentsearchengine.com/2D/0T/227282.1.2.png
Schematic Symbol：	https://componentsearchengine.com/symbol.php?partID=227282	PCB Footprint：	https://componentsearchengine.com/footprint.php?partID=227282
3D View：	https://componentsearchengine.com/viewer/3D.php?partID=227282	Samacsys PartID：	227282
Samacsys Image：	https://componentsearchengine.com/Images/9/UAA2016PG.jpg	Samacsys Thumbnail Image：	https://componentsearchengine.com/Thumbnails/1/UAA2016PG.jpg
Samacsys Pin Count：	8	Samacsys Part Category：	Integrated Circuit
Samacsys Package Category：	Dual-In-Line Packages	Samacsys Footprint Name：	PDIP-8 CASE626-05 ISSUE L
Samacsys Released Date：	2015-09-17 10:56:35	Is Samacsys：	N
模拟集成电路 - 其他类型：	ANALOG CIRCUIT	JESD-30 代码：	R-PDIP-T8
JESD-609代码：	e3	长度：	9.78 mm
负电源电压最大值（Vsup）：	-10 V	负电源电压最小值（Vsup）：	-8 V
标称负供电电压 (Vsup)：	-9 V	功能数量：	1
端子数量：	8	最高工作温度：	85 °C
最低工作温度：	-20 °C	封装主体材料：	PLASTIC/EPOXY
封装代码：	DIP	封装等效代码：	DIP8,.3
封装形状：	RECTANGULAR	封装形式：	IN-LINE
峰值回流温度（摄氏度）：	260	电源：	-7 V
认证状态：	Not Qualified	座面最大高度：	4.45 mm
子类别：	Power Management Circuits	最大供电电流 (Isup)：	15 mA
表面贴装：	NO	温度等级：	OTHER
端子面层：	Tin (Sn)	端子形式：	THROUGH-HOLE
端子节距：	2.54 mm	端子位置：	DUAL
处于峰值回流温度下的最长时间：	40	宽度：	7.62 mm
Base Number Matches：	1

UAA2016/D 数据手册

UAA2016

MAXIMUM RATINGS (Voltages referenced to Pin 7)

Rating

Symbol

Value

Unit

Supply Current (I

)

Pin 5

Non–Repetitive Supply Current

(Pulse Width = 1.0 µs)

200

CCP

AC Synchronization Current

Pin Voltages

3.0

sync

0; V

Pin 2

Pin 3

Pin 4

Pin 6

ref

0; V

Current Sink

1.0

ref

Pin 1

Output Current (Pin 6)

150

(Pulse Width < 400 µs)

Power Dissipation

625

100

°C/W

°C

Thermal Resistance, Junction–to–Air

Operating Temperature Range

θJA

– 20 to + 85

ELECTRICAL CHARACTERISTICS (T = 25°C, V

= –7.0 V, voltages referred to Pin 7, unless otherwise noted.)

Characteristic

Symbol

Min

Typ

Max

Unit

Supply Current (Pins 6, 8 not connected)

(T = – 20° to + 85°C)

—

0.9

1.5

Stabilized Supply Voltage (Pin 5) (I

Reference Voltage (Pin 1)

= 2.0 mA)

–10

– 6.5

– 9.0

– 5.5

– 8.0

– 4.5

ref

Output Pulse Current (T = – 20° to + 85°C)

= 60 W, V

= – 8.0 V)

—

100

—

130

out

Output Leakage Current (V

= 0 V)

µA

µs

out

Output Pulse Width (T = – 20° to + 85°C) (Note 1)

(Mains = 220 Vrms, R

sync

= 220 kΩ)

–10

—

100

+10

0.1

—

Comparator Offset (Note 5)

Sensor Input Bias Current

Sawtooth Period (Note 2)

Sawtooth Amplitude (Note 6)

µA

off

—

40.96

sec

Temperature Reduction Voltage (Note 3)

(Pin 4 Connected to V

)

280

—

350

420

—

Internal Hysteresis Voltage

(Pin 2 Not Connected)

Additional Hysteresis (Note 4)

(Pin 2 Connected to V

)

280

180

350

—

420

300

Failsafe Threshold (T = – 20° to + 85°C) (Note 7)

FSth

NOTES: 1. Output pulses are centered with respect to zero crossing point. Pulse width is adjusted by the value of R

. Refer to application curves.

sync

2. The actual sawtooth period depends on the AC power line frequency. It is exactly 2048 times the corresponding period. For the 50 Hz case it is 40.96

sec. For the 60 Hz case it is 34.13 sec. This is to comply with the European standard, namely that 2.0 kW loads cannot be connected or removed

from the line more than once every 30 sec.

3. 350 mV corresponds to 5°C temperature reduction. This is tested at probe using internal test pad. Smaller temperature reduction can be obtained by

adding an external resistor between Pin 4 and V . Refer to application curves.

4. 350 mV corresponds to a hysteresis of 5°C. This is tested at probe using internal test pad. Smaller additional hysteresis can be obtained by adding

an external resistor between Pin 2 and V . Refer to application curves.

5. Parameter guaranteed but not tested. Worst case 10 mV corresponds to 0.15°C shift on set point.

6. Measured at probe by internal test pad. 70 mV corresponds to 1°C. Note that the proportional band is independent of the NTC value.

7. At very low temperature the NTC resistor increases quickly. This can cause the sensor input voltage to reach the failsafe threshold, thus inhibiting

output pulses; refer to application schematics. The corresponding temperature is the limit at which the circuit works in the typical application. By

setting this threshold at 0.05 V , the NTC value can increase up to 20 times its nominal value, thus the application works below – 20°C.

ref

MOTOROLA ANALOG IC DEVICE DATA

123 4 5 6 7 8

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