TD310_01

更新时间:2025-01-13 05:51:23
描述:TRIPLE IGBT/MOS DRIVER WITH CURRENT SENSE

TD310_01 概述

TRIPLE IGBT/MOS DRIVER WITH CURRENT SENSE 具有电流感应TRIPLE IGBT / MOS驱动器

TD310_01 数据手册

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TD310  
TRIPLE IGBT/MOS DRIVER WITH CURRENT SENSE  
THREE POWER IGBT/MOS AND PULSE  
TRANSFORMER DRIVERS  
CURRENT SENSE COMPARATOR  
UNCOMMITTED OP-AMP  
0.6 A PER CHANNEL PEAK OUTPUT  
CURRENT CAPABILITY  
N
LOW OUTPUT IMPEDANCE TYP: 7AT  
DIP-16  
(Plastic Package)  
200mA  
CMOS/LSTTL COMPATIBLE INVERTING  
INPUT WITH HYSTERESIS  
4V TO 16V SINGLE SUPPLY OPERATION  
LOW BIAS CURRENT TYP: 1.5mA  
ADJUSTABLE UNDERVOLTAGE LOCKOUT  
D
SO-16  
(Plastic Micropackage)  
LEVEL  
STAND-BY MODE  
CHANNEL PARALLELING CAPABILITY  
ORDER CODE  
Package  
DESCRIPTION  
Part Number Temperature Range  
TD310I -40°C, +125°C  
N
D
The TD310 is designed to drive one, two or three  
Power IGBT/MOS and has driving capability for  
pulse transformer. So it is perfectly suited to  
interface control IC with Power Switches in low  
side or half-bridge configuration.  
N = Dual in Line Package (DIP)  
D = Small Outline Package (SO) - also available in Tape & Reel (DT)  
PIN CONNECTIONS (top view)  
TD310 includes a current sense comparator which  
inhibit the output drivers in case of overcurrent. An  
alarm output signals the even to a controller.  
VCC  
INA  
1
2
3
4
5
6
7
8
16  
15  
14  
13  
12  
11  
10  
9
UVLO/Stby  
OUTA  
TD310 also includes an uncommitted op-amp  
which can be used for current measurement (as  
INB  
OUTB  
an amplifier before the A/D input of  
microcontroller) of for other general purpose.  
a
INC  
OUTC  
Programmable undervoltage lockout and standby  
mode make TD310 suitable for a large area of  
environment and application.  
Enable  
Alarm  
Gnd  
Sense -  
OA Input -  
Sense +  
OA Output  
OA Input +  
Typical applications are low side IGBT and power  
MOSFET drive in three phase systems, pulse  
transformer drive, and general purpose pulse  
drive.  
December 2001  
1/9  
TD310  
BLOCK DIAGRAM  
VCC  
Standby  
UVLO  
Standby  
VCC  
0.7V  
1.2V  
1.26M  
140k  
Stby  
INA  
TD310  
GND  
OUTA  
OUTB  
OUTC  
INB  
INC  
Enable  
Alarm  
Control  
Unit  
Sense+  
Sense -  
OA input +  
OA Input-  
GND  
OA output  
GND  
ABSOLUTE MAXIMUM RATINGS  
Symbol  
Parameter  
Value  
Unit  
VCC  
Vi  
Supply Voltage  
Input Voltage  
18  
V
V
0 to VCC  
Vis  
-0.3 to VCC  
-40 to 150  
-40 to 125  
Sense Input Voltage  
V
Tj  
Operating Junction Temperature  
°C  
°C  
Tamb  
Operating Ambient Temperature  
OPERATING CONDITIONS  
Symbol  
Parameter  
Value  
Unit  
VCC  
Supply Voltage  
4 to 16  
V
INSTRUCTION FOR USE  
1 - The TD310 supply voltage must be decoupled with a 1µF min. capacitor.  
2 - If the application involving TD310 requires maximum output current capability, this current must be  
pulsed: pulse width 1µsec, duty cycle 1% at Tamb.  
2/9  
TD310  
ELECTRICAL CHARACTERISTICS  
CC = 15V, Tamb = 25°C (unless otherwise specified)  
V
Symbol  
ICC  
Parameter  
Min.  
Typ.  
Max.  
Unit  
Supply Current with Inputs in High State  
1.5  
2
mA  
LOGIC INPUT (all inputs)  
VIH  
VIL  
IIH  
High Input Voltage  
Low Input Voltage  
High Input Current  
Low Input Current  
2
V
V
0.8  
10  
10  
pA  
pA  
IIL  
Propagation Delay (10% input to 10% output)  
Output Delay  
t
dH, teL  
200  
60  
400  
400  
ns  
Output Delay  
tdL, teH  
T
min. Tamb Tmax.  
tli  
Input Inhibiting Time  
100  
20  
ns  
ns  
tdd  
Differential Delay Time Between Channels  
OUTPUT DRIVERS  
Sourcing Drop Voltage (A/B/C outputs)  
source = 200mA  
Vsod  
3
5
2
V
V
I
Sinking Drop Voltage (A/B/C outputs)  
Isink = 200mA  
Demagnetizing Drop Voltage (A/B/C outputs)  
Idemag. = 100mA  
Vsid  
Vdem  
Ropd  
V
Output Pull Down Resistor  
47  
35  
kΩ  
ALARM OUTPUT  
Low Level Sinking Current  
O = 0.8V  
Is  
5
mA  
V
Ish  
tA  
High Level Sinking Current  
1
µA  
Alarm Output : Delay Time to Alarm Fall if Sense Input Triggered  
500  
ns  
SENSE INPUT  
Vios  
Input Offset Voltage  
20  
mV  
ms  
tAi  
Inhibition Time if Sense Input Triggered  
1
Delay Time to Output Fall if Sense Input Triggered  
All outputs inhibited  
ts  
600  
ns  
tsi  
Inhibition Time of Sense Input  
Sense Hysteresis  
300  
40  
ns  
Vshys  
mV  
OPERATIONAL AMPLIFIER  
+
Vicm  
Common Mode Input Voltage Range  
V
0 to VCC - 1.5  
Vio  
GBP  
Avd  
Input Offset Voltage  
10  
mV  
MHz  
dB  
Gain Bandwidth Product  
1
Open Loop Gain  
60  
Slew Rate at Unity Gain (RL = 100k, CL = 100pF, Vi = 3 to 7V)  
SR  
0.6  
V/µs  
STAND-BY  
Vstdby  
Standby Mode Threshold Voltage  
Standby Mode Supply Current  
0.3  
1.1  
V
Istdby  
30  
1
µA  
UNDER VOLTAGE LOCKOUT  
Iadj  
Vst1  
Vhys  
Under Voltage Level Adjust Current  
Internal Stop Threshold (without external adjustment)  
Threshold Hysteresis  
µA/V  
V
10.7  
13.3  
0.8  
V
3/9  
TD310  
UVLO/stdby pin functioning modes  
Due to the wide supply voltage range of the TD310, the UVLO function (Under Voltage Lock Out) is  
externally adjustable by a resistor bridge.  
The bridge rate can be calculated in relation with the expected UVLO protection level as follows :  
R1  
R1 + R2  
--------------------  
V
UVLO x  
= 1.2V (where R1 is the lower resistor of the bridge)  
The internal resistor sets the default UVLO value to 12V (*) and might influence the external bridge rate if  
the values of the external resistors are too high. Moreover, the internal resistor ratio is accurate, but the  
the tolerance on the absolute value of each internal resistor (typically 140k and 1.26M) is about +/-20%.  
If an external bridge is used, we recommend to choose resistor values not greater than 10k.  
The standby threshold value depends of the UVLO value as follows:  
0.7  
Vstdby  
=
/
VUVLO  
1.2  
+
Both UVLO and stdby functions can be inhibited by connecting the UVLO/stdby pin to VCC via a pull up  
resistor (ex 150k).  
The following table summarizes the functions of the TD310 :  
Pin  
16  
9/11  
5
2/3/4  
15/14/13  
6
Alarm  
L
7/8/10  
Con-  
sumption  
UVLO/  
stdby  
Sense+/  
Sense-  
Config  
Enable  
In A/B/C  
Out A/B/C  
Op-Amp  
+ > -  
X
H
L
X
IN  
X
L
IN  
L
H
Normal  
1
H
OK  
(1.5mA)  
+ < -  
H
+ > -  
+ < -  
X
L
H
L
L
Stdby  
UVLO  
2
3
L
X
X
X
X
L
L
HZ  
OK  
(30µA)  
M
H
Configuration 1 : UVLO/stdby = H  
The TD310 is in a normal consumption state (1.5mA), the operational amplifier is normally functioning and  
the buffer outputs are determined by the sense comparator inputs, the enable inputs and the buffer inputs.  
Configuration 2 : UVLO/stdby = L  
The TD310 is in a low consumption state (standby mode 30µA), the buffer outputs are set to low state and  
the operational amplifier is in high impedance state.  
Configuration 3 : UVLO/stdby = M  
The VCC supply voltage is between VUVLO and Vstdby (**). The TD310 remains in a normal  
consumption state and the operational amplifier is normally functioning but the buffer outputs and the  
alarm pin are set to low state.  
(*)  
If the UVLO level remains unadjusted, it is recommended to bypass the UVLO/stdby pin with a 1nF capacitor.  
(**) If the supply voltage falls below V  
, the TD310 is set in standby mode (configuration 2).  
stdby  
4/9  
TD310  
TIMING DIAGRAM  
TIMING 1  
Input  
A/B/C  
tdH  
tli  
tdL  
Output  
A/B/C  
TIMING 2  
Input  
A/B/C  
Output  
A/B/C  
teL  
ts  
tAi  
Sense  
tA  
tAi  
Alarm  
teH  
Enable  
Under  
Voltage  
5/9  
TD310  
TYPICAL APPLICATIONS  
Figure 1 : HALF BRIDGE DRIVE IN THREE PHASE MOTOR SYSTEM  
High voltage  
VCC  
VCC  
MCU signals  
Stby  
UVLO  
Standby  
Pulse controlled inputs  
LOAD  
INA  
OUTA  
OUTB  
OUTC  
ON  
INB  
INC  
OFF  
Pulse transf  
VCC  
Level controlled input  
Enable  
Alarm  
LOGIC  
Sense+  
Sense -  
Shunt  
TD310  
OA input +  
OA Input-  
OA output  
GND  
GND  
6/9  
TD310  
Figure 2 : THREE PHASE MOTOR LOW SIDE DRIVE  
+400V  
MICRO  
High Side  
CONTROLLER  
Driver  
VCC  
HS  
VCC  
Stby  
UVLO  
Standby  
STBY  
M
OUTA  
OUTB  
OUTC  
INA  
A
B
C
INB  
INC  
VCC  
Enable  
Alarm  
En  
IT  
LOGIC  
Sense+  
Sense -  
Shunt  
TD310  
OA input +  
OA Input-  
OA output  
ANA  
GND  
GND  
Figure 3 : LOW SIDE DRIVE  
VCC  
LOAD  
LOAD  
LOAD  
VCC  
Stby  
INA  
UVLO  
Standby  
OUTA  
INB  
INC  
OUTB  
OUTC  
VCC  
Enable  
Alarm  
LOGIC  
Sense+  
Sense -  
Shunt  
TD310  
OA input +  
OA Input-  
OA output  
GND  
GND  
7/9  
TD310  
PACKAGE MECHANICAL DATA  
16 PINS - PLASTIC DIP  
Millimeters  
Inches  
Typ.  
Dim.  
Min.  
Typ.  
Max.  
Min.  
Max.  
a1  
B
b
0.51  
0.77  
0.020  
0.030  
1.65  
0.065  
0.5  
0.020  
0.010  
b1  
D
E
e
0.25  
20  
0.787  
8.5  
2.54  
17.78  
0.335  
0.100  
0.700  
e3  
F
7.1  
5.1  
0.280  
0.201  
i
L
3.3  
0.130  
Z
1.27  
0.050  
8/9  
TD310  
PACKAGE MECHANICAL DATA  
16 PINS - PLASTIC MICROPACKAGE (SO)  
Millimeters  
Dim.  
Inches  
Typ.  
Min.  
Typ.  
Max.  
Min.  
Max.  
A
a1  
a2  
b
1.75  
0.2  
0.069  
0.008  
0.063  
0.018  
0.010  
0.1  
0.004  
1.6  
0.35  
0.19  
0.46  
0.25  
0.014  
0.007  
b1  
C
0.5  
0.020  
c1  
D
45° (typ.)  
9.8  
5.8  
10  
0.386  
0.228  
0.394  
0.244  
E
6.2  
e
1.27  
8.89  
0.050  
0.350  
e3  
F
3.8  
4.6  
0.5  
4.0  
5.3  
0.150  
0.181  
0.020  
0.157  
0.209  
0.050  
0.024  
G
L
1.27  
0.62  
M
S
8° (max.)  
Information furnished is believed to be accurate and reliable. However, STMicroelectronics assumes no responsibility for the  
consequences of use of such information nor for any infringement of patents or other rights of third parties which may result from  
its use. No license is granted by implication or otherwise under any patent or patent rights of STMicroelectronics. Specifications  
mentioned in this publication are subject to change without notice. This publication supersedes and replaces all information  
previously supplied. STMicroelectronics products are not authorized for use as critical components in life support devices or  
systems without express written approval of STMicroelectronics.  
© The ST logo is a registered trademark of STMicroelectronics  
© 2001 STMicroelectronics - Printed in Italy - All Rights Reserved  
STMicroelectronics GROUP OF COMPANIES  
Australia - Brazil - Canada - China - Finland - France - Germany - Hong Kong - India - Israel - Italy - Japan - Malaysia  
Malta - Morocco - Singapore - Spain - Sweden - Switzerland - United Kingdom - United States  
© http://www.st.com  
9/9  

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