STMICROELECTRONICS L6213

L6213
SOLENOID DRIVER + SWITCH MODE POWER SUPPLY
ADVANCE DATA
OPERATING SUPPLY VOLTAGE UP TO 46V
1A POWER SUPPLY (5V)
5A SOLENOID DRIVER
PRECISE ON CHIP REFERENCE VOLTAGE
DISCONTINUOUS MODE - FREQUENCY
VARIABLE
VERY HIGH EFFICIENCY
1Ω OUTPUT DMOS (SMPS)
INTERNAL CURRENT LIMIT (SMPS SECTION)
EXTERNALLY PROGRAMMABLE SOLENOID
CURRENT RISING SLOPE
EXTERNALLY PROGRAMMABLE FIXED
HYSTERESIS CONTROL
OPTIMIZED DMOS RDS ON FOR HIGH SIDE
CHOPPING
DESCRIPTION
The L6213 is an IC containing a S.M.P.S. delivering 1A at a voltage of 5V and a section designed
to drive a solenoid with a current up to 5A.
The device is realized in BCD mixed technology,
which combines isolated DMOS power transistor
with CMOS and Bipolar circuits on the same chip.
The SMPS section can deliver 1A DC with an out-
MULTIPOWER BCD TECHNOLOGY
Powerdip 16+2+2
put voltage of 5V, including current limiting, reset
and power fail for microprocessor and thermal
protection.
The solenoid driver section is designed for high
current applications like hammer driver in electronic typewriter.
The solenoid output section contains a high side and
a low side DMOS, which RDS ON are optimized for
high side chopping. The current rising slope is externally programmable through an external capacitor.
The level of hysteresis of the current can be
changed through an external resistor.
The device is supplied in Powerdip 16+2+2, and
use the four center pins to conduct heat to the
printed circuit.
APPLICATION CIRCUIT
November 1991
1/9
This is advanced information on a new product now in development or undergoing evaluation. Details are subject to change without notice.
L6213
BLOCK DIAGRAM
2/9
L6213
ABSOLUTE MAXIMUM RATINGS
Symbol
Value
Unit
Supply Voltage
52
V
VD; VOUT-UP Output Negative Voltage DC
-1.3
V
VS
VD
VOUT-DOWN
Parameter
Output Negative Voltage peak at t = 0.1µs f = 100KHz
Output Positive Voltage DC
Output Positive Voltage peak at t = 0.1µs f = 25KHz
-5V
V
VS + 1.3
V
VS + 5
V
Output Negative Voltage peak at t = 0.1µs f = 25KHz
-5
V
PFP
Input Voltage
25
V
VO, Enable
PIM
Input Voltage
7
V
Reset, PF
Output Voltage
20
V
CD, ISTP
Input Voltage
5.5
V
Out-Up
Out-Down
Output Current DC = 10% TON = 3.5ms
5.5
A
-50 to 150
°C
VOUT-UP
Tstg
Storage Temperature
THERMAL DATA
Symbol
R th j-pins
R th j-amb
Description
Thermal Resistance Junction-pins
Thermal Resistance Junction-ambient
Max.
Max.
Value
Unit
14
60
°C/W
°C/W
PIN CONNECTION (Top view)
3/9
L6213
PIN DESCRIPTION
Nr.
Name
1
Out-Up
2
BSE
3
ENABLE
Description
Solenoid section upper DMOS output.
Solenoid section upper DMOS bootstrap. A capacitor connected between pin 2 and pin 1
ensures the efficient driving of the solenoid section upper DMOS.
Solenoid control input - TTL compatible.
4
+VS1
Unregulated voltage input - Solenoid section.
5, 6
GND
Ground.
7
PF
8
PFP
Power fail programming. A resistor divider connected to VPS changes the Power fail
threshold levels.
9
CD
Capacitor delay. A capacitor connected to this pin determines the Reset signal delay time
td.
Unregulated voltage input - SMPS sections.
Power fail output, the saturation of PF is guaranteed if VPS exceed 3V. PF is at logic 1 a
time T1 after RESET reached the high level. PF came back to logic 0 when VPS goes
down under 18V. (see fig. 1)
10
VS2
11
VD
Regulator output and diode voltage control.
12
BSA
SMPS section DMOS bootstrap. A capacitor connected between pin 12 and pin 11
ensures efficient driving of SMPS DMOS.
13
RESET
Reset output. The saturation of Reset is guaranteed if VPS exceeds 3V. The Reset output
reaches the logic level 1 a time delay (set by capacitor CD) after VPS has reached a
rising threshold voltage. Reset reaches 0 level when VPS goes down below folling
threshold.
14
Vout
Feed back input of the regulation loop.
15, 16
GND
Ground.
17
R sense
Connection for solenoid sensing resistor.
18
PIM
Programming of solenoid current rising edge. An RC network connected to this pin
determines the slope of the solenoid current rising edge.
19
ISTP
Programming of solenoid current histeresys.
20
Out-Down
Solenoid section lower DMOS output.
ELECTRICAL CHARACTERISTICS (Refer to the application circuit, TJ =25°C, Iout Power Supply =
50mA, VPS from 12V to 46V; unless otherwise specified.
Pin
Symbol
Parameter
Test Condition
Min.
Typ.
Max.
Unit
STEP-DOWN SECTION
10, 4
Vi
Supply Voltage
14
Vo
Output Voltage
IO = 0.05 to 1A
On State Drain Resistance
TJ = 25°C; VPS = 15 to 46V
R DS on
14
46
V
4.85
5.2
V
0.7
Ω
V
0.56
10
th on
Turn-on Threshold
VPS Rising Fig. 1
10
12
10
th off
Turn-off Threshold
VPS Falling Fig. 1
10
12
V
10
IB
Input Bias Current
15
mA
11
Ilim
Static Current Limiting
3.4
A
2, 10
Ii
Total Input Current
ENABLE = 1, VPS = 46V,
Iload = 0
13
mA
2, 10
Ii
Total Input Current
ENABLE = 1, VPS = 15V,
Iload = 0
18
mA
11
tdp
Protection Current Maximum
Delay Time
1
µs
toff
Minimum Power off State
7.8
µs
4/9
2.2
VPS = 46V IO = 50mA
4.2
L6213
ELECTRICAL CHARACTERISTICS (continued)
Pin
Symbol
Parameter
Test Condition
Min.
Typ.
Max.
Unit
POWER FAIL
10
VthR
Rising Threshold Voltage
PFP open
Fig. 1
19.5
20
23
V
10
VthF
Falling Threshold Voltage
PFP open
Fig. 1
16.6
18.1
19.5
V
10
∆Vth
Threshold Hysteresis
PFP open
Fig. 1
0.5
Divided Internal Current
V
130
µA
8
IPFI
8
Vth-PFP
Rising Threshold Voltage
VPS = 24V
1.1
1.21
1.29
V
8
Vth-PFP
Falling Threshold Voltage
VPS = 24V
0.98
1.06
1.13
V
8
∆Vth -PFP
Threshold Hysteresis
VPS = 24V
30
7
Vsat
Output PF Saturation
PF current = 2.5mA
VPS = 3 to 46V
0.4
V
7
Ileak
Output Leakage Current
VPS = 46V VPF = 20V
50
µA
7
t1
Delay to Reset
RESET High to PF high
Delay Time (fig. 1)
0
1
µs
7
t2
Noise Immunity
When VPS drops to 8V for a
time from 0 to t2, PF must be
at 1 logic level (fig. 2)
0
1
µs
7
t3
Noise Immunity
When VPS drops to 17V for
a time greater than t3, PF
must be at 0 logic level (fig. 2)
4
9
Id
Delay Source Current
VD = 0 to 4.1V
70
9
Id
Delay Sink Current
VD = 4.3 to 2V
10
13
Vsat
Output RESET Saturation
RESET Current = 2.5mA
VPS = 3 to 46V
0.4
V
13
Ileak
Output Leakage Current
VPS = 46V RD = 4 to 5V
VRESET = 20V
50
µA
13
t4
Noise Immunity
When VPS drops to 10V for a
time greater than t4 RESET
must be at 0 logic level (fig. 1)
mV
µs
RESET
140
µA
mA
µs
4
SOLENOID CONTROL SECTION
18
Vsat
Saturation Voltage
ENABLE = 1 I PIM = 5mA
18
Ileak
Leakage Current
PIM = 0.2 to 2.5V ENABLE = 0
18
Vclamp
Clamp Voltage
1.9
2
0.2
V
+100
µA
2.1
V
17
Minimum Offset Threshold
PIM = GND Vsens = 10mV
ENABLE = 0
lower MOS must be in conduction
17
MAximum Offset Voltage
PIM = GND Vse ns = 50mV
ENABLE = 0
lower MOS must be open
Static Voltage Limiting
Threshold
Vsens going from 0 to 0.6V
PIM = 3V, the EMH DMOS
goes to high resistance state
when Vsens is within: (see
Block Diagram)
17
Vsense
17
0.5
Maximum Delay Time
0.525
V
1
µs
4
µs
EMH Ron
OnStateDrain toSource Resistance
Tj = 25°C, VPS 15 to 46V
0.35
0.45
Ω
EML Ron
OnStateDrain to SourceResistance
Tj = 25°C, VPS 15 to 46V
0.28
0.4
Ω
Vsense Hysteresis
IST = Open
IST = 0.75V
IST = 3V
50
25
100
65
35
120
mV
mV
mV
tp
17
0.475
Vsense
Protection Time
2
35
15
80
5/9
L6213
Figure 1: Power Fail and Reset Static Operation. (PFP open)
6/9
L6213
Figure 2: Power Fail and Reset Noise Immunity and Dynamic Operation.
7/9
L6213
POWERDIP20 PACKAGE MECHANICAL DATA
mm
DIM.
MIN.
a1
0.51
B
0.85
b
b1
TYP.
MAX.
MIN.
TYP.
MAX.
0.020
1.40
0.033
0.50
0.38
0.055
0.020
0.50
D
0.015
0.020
24.80
0.976
E
8.80
0.346
e
2.54
0.100
e3
22.86
0.900
F
7.10
0.280
I
5.10
0.201
L
Z
8/9
inch
3.30
0.130
1.27
0.050
L6213
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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