STMICROELECTRONICS TDF1747

TDE1747
TDF1747
INTERFACE CIRCUIT – RELAY AND LAMP – DRIVER
OPEN GROUND PROTECTION
HIGH OUTPUT CURRENT
ADJUSTABLE SHORT-CIRCUIT PROTECTION TO GROUND
THERMAL PROTECTION WITH HYSTERESIS TO AVOID THE INTERMEDIATE OUTPUT LEVELS
LARGE SUPPLY VOLTAGE RANGE : + 10 V
TO + 45 V
SHORT-CIRCUIT PROTECTION TO VCC
DESCRIPTION
The TDE/TDF1747 is a monolithic comparator designed for high current and high voltage applications, specifically to drive lamps, relays, stepping
motors.
These device is essentially blow-out proof. Current limiting is available to limit the peak output
current to safe values, the adjustment only requires one external resistor. In addition, thermal
shut down is provided to keep the I.C. from overheating. If internals dissipation becomes too
great, the driver will shut down to prevent excessive heating. TDE1747 has an open ground protection. The output is also protected from shortcircuits with the positive power supply.
PIN CONNECTIONS (Top view)
Minidip
November 1991
Minidip (DP)
SO14 (FP)
ORDERING NUMBERS:
TDE1747DP
TDE1747FP
TDF1747DP
The device operates over a wide range of supply
voltages from standard ± 15 V operational amplifier supplies down to the single + 12 V or + 24
used for industrial electronic systems.
SO14
1/11
This is advanced information on a new product now in development or undergoing evaluation. Details are subject to change without notice.
TDE1747 - TDF1747
ABSOLUTE MAXIMUM RATINGS
Symbol
Parameter
Value
Unit
50 *
V
VCC
Supply Voltage
VID
Differantial Input Voltage
50
V
VI
Input Voltage
50
V
IO
Output Current
1
A
Internally Limited
W
Ptot
Power Dissipation (Tamb = + 25 °C)
Tstg
Storage Temperature Range
– 65 to + 150
°C
Toper
Operating Ambient Temperature Range
TDE1747
TDF1747
– 25 to + 85
– 40 to + 85
°C
°C
(*) 60V, t â 10ms
THERMAL CHARACTERISTICS
Symbol
Parameter
Value
Unit
Rth(j-c)
Maximum Junction-case Thermal Resistance
50
°C/W
Rth(j-a)
Maximum Junction-ambient Thermal Resistance
120
°C/W
90
°C/W
65
°C/W
Rth
Junction-ceramic Substrate (case glued to substrate)
Rth
Junction-ceramic Substrate (case glued to substrate, substrate temperature
maintened constant)
SO14
SCHEMATIC DIAGRAM
2/11
SO14
TDE1747 - TDF1747
TEST CIRCUIT
SIMPLIFIED CIRCUIT
3/11
TDE1747 - TDF1747
ELECTRICAL CHARACTERISTICS Tj = – 25 to +85 °C, VCC = 8 to 45 V, unless otherwise specified
(note 1).
Symbol
Parameter
Min.
Typ.
Max.
Unit
VIO
Input Offset Voltage - (note 2)
–
2
50
mV
IIB
Input Bias Current
–
0.1
1.5
mA
ICC
Supply Current (VCC = + 24 V, IO = 0)
High Level
Low Level
–
–
4
2
6
4
mA
mA
Common-mode Input Voltage Range
2
–
VCC–2
V
–
–
480
35
–
50
mA
mA
Output Saturation Voltage (output high)
(RSC = 0, VI+–V I– ≥ 50 mV)
IO = 300 mA, Tj = + 25 °C
Tj = + 150 °C
–
–
1.15
1.05
1.4
1.3
V
V
Low Level Output Current
(VO = 0, VCC = + 24 V)
Tj = + 25 °C
–
0.01
10
µA
VI(max)
ISC
VCC–VO
IOL
Short-circuit Current Limit
(Tamb = + 25 °C, VCC = + 24)
RSC = 1.5 Ω
RSC = ∞
TDE1747
Notes :
1) For operating at high temperature, the TDE/TDF1747, must be derated based on a + 150 C maximum junction temperature and a
junction-ambient thermal resistance of 120 °C/W for Minidip and 100 °C/W for the SO14.
2) The offset voltage given is the maximum value of input voltage required to drive the output voltage within 2 V of the ground or the supply
voltage.
Figure 1: Available Output Current vs. Limiting
Resistor
4/11
Figure 2: Peak Short-circuit Output Current vs.
Limiting Resistor
TDE1747 - TDF1747
Figure 3: Short-circuit Current vs. Case
Temperature
Figure 4: Minimum Limiting Resistor Value vs.
Supply Voltage
Figure 5: Output Current vs. Output Saturation
Voltage
Figure 6: Supply Current vs. Supply Voltage
Figure 7: Supply Current vs. Junction
Temperature
Figure 8: Safe Operating Area (non repetitive
surge)
5/11
TDE1747 - TDF1747
Figure 9: Response Time
TYPICAL APPLICATIONS
Figure 10: Base Circuit
6/11
TDE1747 - TDF1747
Figure 11: Output Current Extension (5A)
Figure 12: Driving Low Impedance Relays (IO = 300mA)
The device in the above application operates at: VCC = +45V, IO = 300mA with a heatsink such that Rth(j-a) ≤ 80°C/W. The device supports
an output voltage of VCC = VZ during the current cut off time, which is decreased by the zener diode. Thisvoltage must be≤ to the maximum
supply voltage.
7/11
TDE1747 - TDF1747
Figure 13: Waveforms
(FIGURE 13a)
(FIGURE 13b)
8/11
TDE1747 - TDF1747
SO14 PACKAGE MECHANICAL DATA
mm
DIM.
MIN.
TYP.
A
a1
inch
MAX.
MIN.
TYP.
1.75
0.1
0.069
0.25
a2
MAX.
0.004
0.009
1.6
0.063
b
0.35
0.46
0.014
0.018
b1
0.19
0.25
0.007
0.010
C
0.5
0.020
c1
45 (typ.)
D
8.55
8.75
0.336
0.344
E
5.8
6.2
0.228
0.244
e
1.27
0.050
e3
7.62
0.300
F
3.8
4.0
0.15
0.157
L
0.4
1.27
0.016
0.050
M
S
0.68
0.027
8 (max.)
9/11
TDE1747 - TDF1747
MINIDIP PACKAGE MECHANICAL DATA
mm
DIM.
MIN.
A
TYP.
MAX.
MIN.
3.32
TYP.
MAX.
0.131
a1
0.51
0.020
B
1.15
1.65
0.045
0.065
b
0.356
0.55
0.014
0.022
b1
0.204
0.304
0.008
0.012
D
E
10.92
7.95
9.75
0.430
0.313
0.384
e
2.54
0.100
e3
7.62
0.300
e4
7.62
0.300
F
6.6
0.260
I
5.08
0.200
L
Z
10/11
inch
3.18
3.81
1.52
0.125
0.150
0.060
TDE1747 - TDF1747
Information furnished is believed to be accurate and reliable. However, SGS-THOMSON Microelectronics 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 SGS-THOMSON Microelectronics. Specifications mentioned in this publication are subject to change without notice. This publication supersedes and replaces all information previously supplied.
SGS-THOMSON Microelectronics products are not authorized for use as critical components in life support devices or systems without express written approval of SGS-THOMSON Microelectronics.
 1994 SGS-THOMSON Microelectronics - All Rights Reserved
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