TPD4105KLBR

更新时间:2024-12-03 13:11:08
品牌:TOSHIBA
描述:IC BRUSHLESS DC MOTOR CONTROLLER, 4 A, PZFM23, 1.27 MM PITCH, PLASTIC, HZIP-23, Motion Control Electronics

TPD4105KLBR 概述

IC BRUSHLESS DC MOTOR CONTROLLER, 4 A, PZFM23, 1.27 MM PITCH, PLASTIC, HZIP-23, Motion Control Electronics 运动控制电子器件

TPD4105KLBR 规格参数

生命周期:Active零件包装代码:ZIP
包装说明:ZIP, ZIP23H,.1,.7TB针数:23
Reach Compliance Code:unknownECCN代码:EAR99
HTS代码:8542.39.00.01风险等级:5.64
其他特性:ALSO NEEDS 50V TO 450V VBB SUPPLY模拟集成电路 - 其他类型:BRUSHLESS DC MOTOR CONTROLLER
JESD-30 代码:R-PZFM-T23功能数量:1
端子数量:23最高工作温度:135 °C
最低工作温度:-20 °C最大输出电流:4 A
封装主体材料:PLASTIC/EPOXY封装代码:ZIP
封装等效代码:ZIP23H,.1,.7TB封装形状:RECTANGULAR
封装形式:FLANGE MOUNT电源:15,280 V
认证状态:Not Qualified子类别:Motion Control Electronics
最大供电电流 (Isup):5 mA最大供电电压 (Vsup):16.5 V
最小供电电压 (Vsup):13.5 V标称供电电压 (Vsup):15 V
表面贴装:NO技术:MOS
温度等级:OTHER端子形式:THROUGH-HOLE
端子节距:1.27 mm端子位置:ZIG-ZAG
Base Number Matches:1

TPD4105KLBR 数据手册

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TENTATIVE  
TPD4105AK  
TOSHIBA Intelligent Power Device High Voltage Monolithic Silicon Power IC  
TPD4105AK  
The TPD4105AK is a DC brush less motor driver using high  
voltage PWM control. It is fabricated by high voltage SOI process.  
It contains level shift high-side driver, low-side driver, IGBT  
outputs, FRDs and protective functions for under voltage  
protection circuits and thermal shutdown circuit. It is easy to  
control a DC brush less motor by just putting logic inputs from a  
MPU or motor controller to the TPD4105AK.  
Features  
·
·
·
Bootstrap circuit gives simple high side power supply.  
Bootstrap diodes are built in.  
A dead time can be set as a minimum of 1.4 µs, and it is the  
best for a Sine-wave from drive.  
·
·
·
·
·
3-phase bridge output using IGBTs.  
FRDs are built in.  
Included under voltage protection and thermal shutdown.  
The regulator of 7V (typ.) is built in.  
Package: 23-pin HZIP.  
This product has a MOS structure and is sensitive to electrostatic  
discharge. When handling this product, ensure that the environment  
is protected against electrostatic discharge.  
Weight  
HZIP23-P-1.27F : 6.1 g (typ.)  
HZIP23-P-1.27G : 6.1 g (typ.)  
HZIP23-P-1.27H : 6.1 g (typ.)  
1
2005-04-03  
TENTATIVE  
TPD4105AK  
Pin Assignment  
1
HU  
2
HV  
3
HW  
4
LU  
5
LV  
6
7
8
9
10 11 12 13 14 15 16 17 18 19 20 21 22 23  
1 BSV V BSW W 2 NC IS2 NC DIAGV  
LW IS1 NC BSU  
U
V
V
BB  
V
BB  
CC  
GND REG  
Marking  
Lot No.  
A line indicates  
TPD4105AK JAPAN  
lead (Pb)-free package or  
lead (Pb)-free finish.  
Part No. (or abbreviation code)  
2
2005-04-03  
TENTATIVE  
TPD4105AK  
Block Diagram  
V
21  
23  
9 BSU  
12 BSV  
14 BSW  
CC  
11 V  
16 V  
1
BB  
BB  
Under-  
voltage  
Under-  
voltage  
Under-  
voltage  
7 V  
Regulator  
V
REG  
2
Protection Protection Protection  
Under-  
voltage  
Protection  
High-side  
Level Shift  
Driver  
HU 1  
HV  
2
Thermal  
10 U  
13 V  
Input Control  
Shutdown  
HW 3  
LU 4  
LV 5  
LW 6  
15 W  
Low -side  
Driver  
DIAG 20  
18 IS2  
7 IS1  
GND  
22  
3
2005-04-03  
TENTATIVE  
TPD4105AK  
Pin Description  
Pin No.  
1
Symbol  
Pin Description  
The control terminal of IGBT by the side of U top arm. It turns off more than by1.5V.  
It turns on more than by 3.5V.  
HU  
HV  
The control terminal of IGBT by the side of V top arm. It turns off more than by 1.5V.  
It turns on more than by 3.5V.  
2
3
The control terminal of IGBT by the side of W top arm. It turns off more than by 1.5V.  
It turns on more than by 3.5V.  
HW  
The control terminal of IGBT by the side of U bottom arm. It turns off more than by1.5V.  
It turns on more than by 3.5V.  
4
5
6
LU  
LV  
The control terminal of IGBT by the side of V bottom arm. It turns off more than by 1.5V.  
It turns on more than by 3.5V.  
The control terminal of IGBT by the side of W bottom arm. It turns off more than by 1.5V.  
It turns on more than by 3.5V.  
LW  
7
IS1  
NC  
BSU  
U
IGBT emitter and FRD anode pin.  
8
Unused pin, which is not connected to the chip internally.  
U-phase bootstrap capacitor connecting pin.  
U-phase output pin.  
9
10  
11  
12  
13  
14  
15  
16  
17  
18  
19  
20  
V
U and V-phase high-voltage power supply input pin.  
V-phase bootstrap capacitor connecting pin.  
V-phase output pin.  
BB1  
BSV  
V
BSW  
W
W-phase bootstrap capacitor connecting pin.  
-phase output pin.  
V
W-phase high-voltage power supply input pin.  
Unused pin, which is not connected to the chip internally.  
IGBT emitter and FRD anode pin.  
BB2  
NC  
IS2  
NC  
Unused pin, which is not connected to the chip internally.  
With the diagnostic output terminal of open drain , a pull-up is carried out by resistance.  
It turns it on at the time of unusual.  
DIAG  
21  
22  
23  
V
Control power supply pin.(15V typ.)  
Ground pin.  
CC  
GND  
V
7V regulator output pin.  
REG  
4
2005-04-03  
TENTATIVE  
TPD4105AK  
Timing Chart  
HU  
HV  
HW  
LU  
LV  
Input Voltage  
LW  
VU  
Output voltage  
VV  
VW  
5
2005-04-03  
TENTATIVE  
TPD4105AK  
Truth Table  
Mode  
Input  
Top arm  
Bottom arm  
DIAG  
HU HV HW LU LV LW  
phase  
ON  
phase  
phase  
phase  
phase  
ON  
phase  
Normal  
OFF OFF OFF  
OFF OFF  
ON OFF  
ON OFF  
ON  
OFF OFF OFF OFF  
OFF  
OFF  
ON  
ON  
OFF OFF OFF  
OFF  
ON  
ON  
ON  
OFF OFF OFF  
OFF OFF OFF  
OFF OFF  
OFF OFF  
ON  
OFF  
ON  
OFF OFF  
Thermal shutdown H  
OFF OFF OFF OFF OFF OFF  
OFF OFF OFF OFF OFF OFF  
OFF OFF OFF OFF OFF OFF  
OFF OFF OFF OFF OFF OFF  
OFF OFF OFF OFF OFF OFF  
OFF OFF OFF OFF OFF OFF  
OFF OFF OFF OFF OFF OFF  
OFF OFF OFF OFF OFF OFF  
OFF OFF OFF OFF OFF OFF  
OFF OFF OFF OFF OFF OFF  
OFF OFF OFF OFF OFF OFF  
OFF OFF OFF OFF OFF OFF  
ON  
ON  
ON  
ON  
ON  
ON  
ON  
ON  
ON  
ON  
ON  
ON  
Under voltage  
Notes: Release of Thermal shutdownprotection and under voltage protection depends release of a self-reset .  
Absolute Maximum Ratings (Ta = 25°C)  
Characteristics  
Symbol  
Rating  
Unit  
V
V
500  
V
V
BB  
Power supply voltage  
18  
CC  
Output current (DC)  
Output current (pulse)  
Input voltage  
I
3
A
out  
I
out  
4
- 0.5~7  
50  
A
V
V
IN  
VREG current  
I
mA  
mA  
W
REG  
VDIAG current  
I
20  
DIAG  
Power dissipation (Ta = 25°C)  
Power dissipation (Tc = 25°C)  
Operating temperature  
Junction temperature  
Storage temperature  
Lead-heat sink isolation voltage  
P
4
C
P
20  
W
C
T
jopr  
- 20~135  
150  
°C  
°C  
°C  
Vrms  
T
j
T
- 55~150  
1000 (1 min)  
stg  
Vhs  
6
2005-04-03  
TENTATIVE  
TPD4105AK  
Electrical Characteristics (Ta = 25°C)  
Characteristics  
Symbol  
Test Condition  
Min  
Typ.  
Max  
Unit  
V
V
V
¾
¾
50  
13.5  
¾
280  
15  
0
450  
16.5  
0.5  
5
BB  
Operating power supply voltage  
CC  
I
BB  
V
V
V
V
V
V
V
V
V
V
= 400 V  
= 15 V  
BB  
CC  
BS  
BS  
mA  
mA  
V
I
¾
1
CC  
Current dissipation  
I
= 15 V, high side ON  
= 15 V, high side OFF  
¾
300  
270  
¾
410  
370  
¾
BS (ON)  
I
¾
BS (OFF)  
V
IH  
V
IL  
= “H”  
= “L”  
= 5V  
= 0 V  
3.5  
¾
IN  
Input voltage  
¾
1.5  
150  
100  
3
IN  
I
IH  
¾
¾
IN  
Input current  
mA  
V
I
IL  
¾
¾
IN  
V
CEsat  
V
CEsat  
H
L
= 15 V, IC = 1.5 A  
= 15 V, IC = 1.5 A  
¾
2.4  
2.4  
1.6  
1.6  
7
CC  
CC  
Output saturation voltage  
FRD forward voltage  
¾
3
V H  
F
IF = 1.5 A, high side  
IF = 1.5 A, low side  
¾
2.0  
2.0  
7.5  
1.2  
185  
¾
V
V L  
F
¾
Regulator voltage  
V
V
= 15 V, I = 30 mA  
6.5  
¾
V
V
REG  
CC  
O
BSD forward voltage  
V (BSD)  
F
IF = 500μA  
0.9  
¾
Thermal shutdown temperature  
Thermal shutdown hysteresis  
VCC under voltage protection  
VCC under voltage protection recovery  
TSD  
V
V
= 15 V  
= 15 V  
135  
¾
V
CC  
CC  
DTSD  
50  
11  
11.5  
9
V
V
V
V
V
UVD  
UVR  
UVD  
UVR  
¾
¾
¾
¾
10  
10.5  
8
12  
CC  
CC  
BS  
BS  
12.5  
9.5  
10.5  
0.5  
3
V
V
V
under voltage protection  
V
BS  
BS  
under voltage protection recovery  
8.5  
¾
9.5  
¾
V
DIAG saturation voltage  
Output on delay time  
Output off delay time  
Dead time  
I
=5mA  
V
DIAGsat  
DIAG  
t
on  
t
off  
V
V
V
V
= 280 V, IC = 1.5 A  
= 280 V, IC = 1.5 A  
= 280 V, IC = 1.5 A  
= 280 V, IC = 1.5 A  
¾
1.5  
1.2  
¾
ms  
ms  
ms  
ns  
BB  
BB  
BB  
BB  
¾
3
tdead  
1.4  
¾
¾
FRD reverse recovery time  
t
rr  
200  
¾
7
2005-04-03  
TENTATIVE  
TPD4105AK  
Application Circuit Example  
15V  
V
CC  
21  
9
BSU  
+
12  
C
4
C
5
BSV  
14  
BSW  
11  
V
V
1
7 V  
BB  
BB  
Under-  
voltage  
Under-  
voltage  
Under-  
voltage  
23  
16  
Regulator  
V
REG  
2
+
Protection Protection Protection  
C
6
C
7
Under-  
voltage  
Protection  
High-side  
Level Shift  
Driver  
C C C  
3
1
2
1
2
HU  
HV  
HW  
LU  
Thermal  
10  
13  
15  
U
V
Control IC  
or  
Shutdown  
3
Input Control  
4
Microcomputer  
W
5
Low -side  
Driver  
LV  
6
LW  
20  
DIAG  
18  
7
R
IS2  
IS1  
R
22  
GND  
8
2005-04-03  
TENTATIVE  
TPD4105AK  
External Parts  
Standard external parts are shown in the following table.  
Part  
C , C , C  
3
Recommended Value  
Purpose  
Remarks  
25 V/2.2 mF  
0.62 W ± 1% (1 W)  
25 V/10 mF  
Bootstrap capacitor  
Current detection  
(Note 1)  
(Note 2)  
(Note 3)  
(Note 3)  
(Note 3)  
(Note 3)  
(Note 4)  
1
2
R
1
C
4
V
power supply stability  
CC  
C
25 V/0.1 mF  
16 V/1 mF  
V
for surge absorber  
CC  
C
6
V
power supply stability  
REG  
C
7
16 V/1000 pF  
5.1 kW  
V
f or surge absorber  
REG  
R
3
DIAG pin pull-up resistor  
Note 1: The required bootstrap capacitance value varies according to the motor drive conditions. The capacitor is  
biased by V and must be sufficiently derated for it.  
CC  
Note 2: The following formula shows the detection current: I = V ¸ RIS (For V = 0.5 V)  
O
R
R
Do not exceed a detection current of 3 A when using this product.  
(Please go from the outside in the over current protection.)  
Note 3: When using this product, some adjustment is required in accordance with the use environment. When  
mounting, place as close to the base of this product leads as possible to improve the ripple and noise  
elimination.  
Note 4: The DIAG pin is open drain. Note that when the DIAG pin is connected to a power supply with a voltage  
higher than or equal to the V , a protection circuit is triggered so that the current flows continuously. If not  
CC  
using the DIAG pin, connect to the GND.  
Handling precautions  
Please control the input signal in the state to which the V  
voltage is steady. Both of the order of the VBB  
CC  
power supply are not cared about either.  
power supply and the V  
CC  
Note that if the power supply is switched off as described above, this product may be destroyed if the  
current regeneration route to the V power supply is blocked when the V line is disconnected by  
BB  
a relay or similar while the motor is still running.  
BB  
The excess voltage such as the voltage serge which exceed the maximum rating is added, for example, may  
destroy the circuit. Accordingly, be careful of handling this product or of surge voltage in its  
application environment.  
9
2005-04-03  
TENTATIVE  
TPD4105AK  
Description of Protection Function  
(1)  
Under voltage protection  
This product incorporates the under voltage protection circuit to prevent the IGBT from operating in  
unsaturated mode when the V voltage or the V voltage drops.  
CC  
BS  
When the V  
power supply falls to this product internal setting (V UVD = 11 V typ.), all IGBT  
CC  
CC  
outputs shut down regardless of the input. This protection function has hysteresis. When the  
UVR (= 11.5 V typ.) reaches 0.5 V higher than the shutdown voltage, this product is  
V
CC  
automatically restored and the IGBT is turned on again by the input.  
When the V supply voltage drops (V UVD = 9 V typ.), the high-side IGBT output shuts down.  
BS  
BS  
When the V UVR (= 9.5 V typ.) reaches 0.5 V higher than the shutdown voltage, the IGBT is  
BS  
turned on again by the input signal.  
(2)  
Thermal shutdown  
This product incorporates the thermal shutdown circuit to protect itself against the abnormal state  
when its temperature rises excessively.  
When the temperature of this chip rises due to external causes or internal heat generation and the  
internal setting TSD reaches 150°C, all IGBT outputs shut down regardless of the input. This  
protection function has hysteresis (DTSD = 50°C typ.). When the chip temperature falls to TSD -  
DTSD, the chip is automatically restored and the IGBT is turned on again by the input.  
Because the chip contains just one temperature detection location, when the chip heats up due to the  
IGBT, for example, the differences in distance from the detection location in the IGBT (the source of  
the heat) cause differences in the time taken for shutdown to occur. Therefore, the temperature of the  
chip may rise higher than the thermal shutdown temperature when the circuit started to operate.  
Safe Operating Area  
3.1  
3.0  
0
0
400  
0
0
400  
Power supply voltage V  
(V)  
BB  
Power supply voltage V  
(V)  
BB  
Figure 1 SOA at Tj = 135°C  
Figure 2 SOA at Tc = 95°C  
Note 1: The above safe operating areas are Tj = 135°C (Figure 1) and Tc = 95°C (Figure 2). If the temperature  
exceeds thsese, the safe operation areas reduce.  
10  
2005-04-03  
TENTATIVE  
TPD4105AK  
Package Dimensions  
Weight: 6.1 g (typ.)  
11  
2005-04-03  
TENTATIVE  
TPD4105AK  
Package Dimensions  
Weight: 6.1 g (typ.)  
12  
2005-04-03  
TENTATIVE  
TPD4105AK  
Package Dimensions  
Weight: 6.1 g (typ.)  
13  
2005-04-03  
TENTATIVE  
TPD4105AK  
RESTRICTIONS ON PRODUCT USE  
030619EBA  
· The information contained herein is subject to change without notice.  
· The information contained herein is presented only as a guide for the applications of our products. No  
responsibility is assumed by TOSHIBA for any infringements of patents or other rights of the third parties which  
may result from its use. No license is granted by implication or otherwise under any patent or patent rights of  
TOSHIBA or others.  
· TOSHIBA is continually working to improve the quality and reliability of its products. Nevertheless, semiconductor  
devices in general can malfunction or fail due to their inherent electrical sensitivity and vulnerability to physical  
stress. It is the responsibility of the buyer, when utilizing TOSHIBA products, to comply with the standards of  
safety in making a safe design for the entire system , and to avoid situations in which a malfunction or failure of  
such TOSHIBA products could cause loss of human life, bodily injury or damage to property.  
In developing your designs, please ensure that TOSHIBA products are used within specified operating ranges as  
set forth in the most recent TOSHIBA products specifications. Also, please keep in mind the precautions and  
conditions set forth in the “Handling Guide for Semiconductor Devices,” or “TOSHIBA Semiconductor Reliability  
Handbook” etc..  
· The TOSHIBA products listed in this document are intended for usage in general electronics applications  
(computer, personal equipment, office equipment, measuring equipment, industrial robotics, domestic appliances,  
etc.). These TOSHIBA products are neither intended nor warranted for usage in equipment that requires  
extraordinarily high quality and/or reliability or a malfunction or failure of which may cause loss of human life or  
bodily injury (Unintended Usage”). Unintended Usage include atomic energy control instruments, airplane or  
spaceship instruments, transportation instruments, traffic signal instruments, combustion control instruments,  
medical instruments, all types of safety devices, etc.. Unintended Usage of TOSHIBA products listed in this  
document shall be made at the customer’s own risk.  
· The products described in this document are subject to the foreign exchange and foreign trade laws.  
· TOSHIBA products should not be embedded to the downstream products which are prohibited to be produced  
and sold, under any law and regulations.  
14  
2005-04-03  

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