UM2640L-SO8-R [UTC]

TWO-PHASE UNIPOLAR DC BRUSHLESS MOTOR PRE-DRIVER IC; 两相单极直流无刷电机预驱动器IC


型号：	UM2640L-SO8-R
厂家：	Unisonic Technologies
描述：	TWO-PHASE UNIPOLAR DC BRUSHLESS MOTOR PRE-DRIVER IC 两相单极直流无刷电机预驱动器IC 驱动器电机
文件：	总8页 (文件大小：202K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

UNISONIC TECHNOLOGIES CO., LTD

UM2640

Preliminary

CMOS IC

TWO-PHASE UNIPOLAR DC

BRUSHLESS MOTOR

PRE-DRIVER IC

DESCRIPTION

UTC UM2640 is a 2-phase pre-driver IC for unipolar DC brushes

motors. It features high voltage bipolar technology so that the driver

works up to 48V. High voltage operation delivers more power and

improves power supply efficiency. Therefore, it is suitable for high

voltage fan motor applications.

FEATURES

* Wide supply voltage range of 4V~55V

* Absolute Maximum Voltage 60V

* Lock protection.

Auto-restart when the motor lock is undone.

* Lock Alarm Output Terminal

ORDERING INFORMATION

Ordering Number

Lead Free

Package

Packing

Halogen Free

UM2640L-SO8-R

UM2640L-SO8-T

UM2640G-SO8-R

UM2640G-SO8-T

SOP-8

Tape Reel

Tube

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UM2640

Preliminary

CMOS IC

PIN CONFIGURATION

V_CC

OUT2

OUT1

C_t

H1 2

GND

PIN DESCRIPTION

PIN NO.

PIN NAME

V_CC

DESCRIPTION

Supply voltage

Positive input for hall amplifiter

Lock alarm output

Negative input for hall amplifiter

Ground

GND

C_t

Timing capacitance

Output voltage

OUT1

OUT2

Output voltage

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UM2640

Preliminary

CMOS IC

BLOCK DIAGRAM

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UM2640

Preliminary

CMOS IC

ABSOLUTE MAXIMUM RATING (T_A=25°C)

PARAMETER

SYMBOL

V_CC

RATINGS

UNIT

Supply Voltage

Hall Input Voltage Range

Output Current

V_IH

-0.3~V_CC

I_OUT

Lock Alarm Output Voltage

Hall Input Differential Voltage

Lock Alarm Output Current

Power Dissipation

V_OLA

V_IHD

I_OLA

°C

P_D

375

Operating Temperature

Storage Temperature

T_OPR

T_STG

-40~85

-55~150

Note: Absolute maximum ratings are those values beyond which the device could be permanently damaged.

Absolute maximum ratings are stress ratings only and functional device operation is not implied.

ELECTRICAL CHARACTERISTICS (V_CC=48V, T_A= 25°C)

PARAMETER

SYMBOL

V_CC

TEST CONDITIONS

MIN TYP MAX UNIT

Operating Supply Voltage Range

4.0

48.0 55.0

V_CC=24V

3.0

3.8

4.0

4.8

Operating Current

I_CC

V_CC=48V

Hall Input Hysterisis Range

Hall Amplifier Input Bias Current

Hall Input Common Mode Voltage

Output Voltage

V_HYS

I_B

µA

0.5

1.0

V_ICM

V_OUT

I_LEAK

V_LA

1.5

Vcc-2

I_OUT=10mA

Vcc-1.5

Output Leak Current

V_CC=60V

µA

Lock Alarm Output Voltage

Lock Alarm Leak Current

Ct Charge Current

Lock Alarm ON, I_LA=5mA

0.5

I_LA-LEAKV_LA=60V

µA

I_CHG

I_DCHG

I_CHG/I_DCHG

V_CtH

V_Ct=1.5V

3.8

0.75

5.5

Ct Discharge Current

Charge/Discharge Current Ratio

Ct H Level Cense Voltage

Ct L Level Cense Voltage

Auto Protection Release ON Time

Auto Protection Release OFF Time

4.0

2.2

0.6

8.0

2.8

0.8

2.5

V_CtL

0.7

T_ON

C_t=0.47µF

0.25

1.25

T_OFF

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UM2640

Preliminary

CMOS IC

APPLICATION INFORMATION

The UTC UM2640 is a two-phase unipolar DC brushes motor pre-driver IC that features high voltage process

technology so that the driver works up to 60V.

It is suitable for high voltage fan motor applications where 48V operation is required.

[example of application circuit]

[Design Notes]

Above application example is designed for 48V operation with motor current of 300mA. It uses the following

components:

Hall Elements: HW101A (AKD)

TR1, TR2: 2SC4027A (UTC)

1. Design of R4 and R5

^CC- VBE - VCE

R4 =

Where; V_CCis 48V, VCE of UTC UM2640 is 1.5V, VBE of TR1 is 0.7V. IB is the base current of TR1.

The pull down resistance R5 (connected to TR1) influences turn-off time of TR1.

A typical R5 value is ranging from 1kΩ to 10kΩ. It is highly recommended to determine the value with actual

application for better noise performance.

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UM2640

Preliminary

CMOS IC

APPLICATION INFORMATION(Cont.)

2. Design of Ra and Ca

Ra and Ca must be used if V_CCexceeds operating voltage range of UTC UM2640.

Example of V_CC60V Application

Given that current consumption of UTC UM2640 is 4mA (at V_CC=48V), Ra is given by:

60 - 48

Ra =

= 3kꢀ

4 ×10^-3

Ca is needed if UTC UM2640 is oscillated or shows unstable operation. A typical value of Ca is from 0.01µF to

0.1µF. A ceramic type is recommended and it must be placed near V_CCand Gnd.

By insertion of Ra and Ca,the ESD immunity is improved greatly.

3. Design of D2

If an application requires active power on and off, TR1 (TR2) may be damaged or resulted in destruction.

In such application, adding diode between motor winding and Gnd will reduce the damage.

4. Design of ZD1 and ZD2

Zenner diodes are used for limiting kick back voltage of motor winding generated when power transistors is (TR1

and TR2) turned off from on.

There are two methods to consume kick back voltage:

1) Inserting ZD1 (zenner diode connected between Base and Collector of TR1) Energy of kick back voltage is

consumed by TR1 (or TR2). When ZD1 is in operation, Collector voltage is sum of Vbe and ZD1. Therefore,

breakdown voltage of ZD1 must be lower than that of TR1.

2) Inserting ZD2 (zenner diode connected between Collector and Emitter of TR1) Energy of kick back voltage is

consumed by ZD2. To protect TR1, breakdown voltage of ZD2 must be lower than that of TR1.

This method is generally used when Energy of kick back voltage is large. In such application, power rating of ZD

must take in consideration.

5. Selection of C1 and D1:

C1 is used to weaken noise. A typical value is 0.1uF.

Optimize the value in actual operating conditions if necessary. D1 is a diode for protecting against reverse voltage

supply. Silicon rectifier diode is appropriate.

6. Design of R1 and R2

Hall amplifier is a differential amplifier with hysteresis characteristics (24mV typical).

The common-mode input voltage is between 1.5V and V_CC-2V and the input signal must be within the range.

Non-excitation hall bias voltage is to be set at a half of V_CCfor effective use of common-mode input voltage range.

Therefore the same value of hall bias resistors is selected for R1 and R2.

The output voltage of hall elements is effected by the bias current and magnetic flux density of hall elements.

The optimum input voltage of UTC UM2640 is 100mVp-p and higher. With such input voltage, the highest

efficiency can be obtained.

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UM2640

Preliminary

CMOS IC

APPLICATION INFORMATION(Cont.)

7. Design of C2:

Lock Protection Function, consists of Motor Lock Detection and Auto Resume Function, is a safety feature to

protect a motor and a driver circuit from fatal destruction in case of motor halt.

Motor Lock Detection detects motor halt due to irregular load conditions and then cuts motor driving current for

safety operation. When Lock Detection is activated; Lock Alert Out (LA: Pin 3) goes to L.

A value of C2 determines Lock detection time (Ton) and Auto Resume Time (Toff).

Lock detection time (Ton) is given by:

Vch - Vcl

T_ON= C2

[sec]

Where C2 is 0.47uF:

2.5 - 0.7

3.8×10^-6

T_ON= 0.47×10^-6

= 0.22[sec]

Auto Resume Time (Toff) is given by:

Vch - Vcl

T_OFF= C2

[sec]

Idc

Where C2 is 0.47uF:

2.5 - 0.7

0.75 ×10^-6

T_OFF= 0.47×10^-6

= 1.13[sec]

A typical value of C2 is either 0.47uF or 1uF depending on a motor.

Lock Protection

Lock Alert Out (LA: Pin 3) is a open collector output and R3 is a pull up resister. A typical value of R3 is 10kꢀ.

It must be noted that Lock Alert Out stays an H state during few hundred milliseconds from power up as shown in

the picture below.

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UM2640

Preliminary

CMOS IC

UTC assumes no responsibility for equipment failures that result from using products at values that

exceed, even momentarily, rated values (such as maximum ratings, operating condition ranges, or

other parameters) listed in products specifications of any and all UTC products described or contained

herein. UTC products are not designed for use in life support appliances, devices or systems where

malfunction of these products can be reasonably expected to result in personal injury. Reproduction in

whole or in part is prohibited without the prior written consent of the copyright owner. The information

presented in this document does not form part of any quotation or contract, is believed to be accurate

and reliable and may be changed without notice.

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UM2640L-SO8-R [UTC]

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