ETC CS464/D

CS464
CS464
Single Coil Predriver
Features
Description
The CS464, Single Coil Predriver,
provides interface control for the
current through a primary ignition coil. Features include output current control, input nega-
tive edge filtering, stall timing
and over-voltage shutdown. The
IC is available as a bumped flipchip or packaged in a 16 lead SO
wide package.
■ 40mA Driver
■ Stall Timing
■ Output Clamp
■ Overvoltage Shutdown
Absolute Maximum Ratings
Lead Temperature Soldering
Reflow (SMD styles only)...........60 sec. max above 183°C, 230°C peak
Continuous Power Supply @ VBAT, -40°C < TA < 55°C .............5V to 24V
Continuous Power Supply @ VBAT, 55°C < TA < 140°C.............6V to 18V
Frequency .......................................................................................5 to 400Hz
Over the extended ranges of temperature, voltage, and frequency not
covered by normal operating conditions, low frequency and run related
functions are allowed an additional 20% on specification limits. The
degradation shall not be permanent, and upon returning to normal
operating conditions shall be within the specification limits. Non-normal “Run Mode” operation is 45 hours cumulative life not exceeding a
continuous run time of 10 minutes with a 10 minute “Off” time following each successive operating cycle.
Application Diagram
Package Options
16 Lead SO Wide
MB 1
CS
NC
S
NC
NC
CR
OUT
IN+
IC
NC
D
NC
NC
Gnd
VCC
VBAT
Flip-Chip
RIC2
MB
CS
NC
S
NC
CR
RIN+
VIN
IN+
10k
RMB
10.7k
12V
0V
NC
40Hz
CR
0.1µF
50V
4k
NC
CS464
N1
OUT
IC
D
NC
NC
Gnd
VCC
ZD
18V
RD, 55Ω, 5W
RVCC, 330
RIC1
200
CS
0.47µF
50V
N2
Adjust for 6.5A Coil Current
CVCC
0.1µF
RS1
56
RS2
0.05Ω, 5W
ON Semiconductor
2000 South County Trail, East Greenwich, RI 02818
Tel: (401)885–3600 Fax: (401)885–5786
N. American Technical Support: 800-282-9855
Web Site: www.cherry–semi.com
June, 1999 - Rev. 10
1
CS464
Electrical Characteristics: -40°C ≤ TA ≤ 125°C; -40°C < TJ < 125°C; All Parameters after VCC Power-up > 100ms;
VBAT = 14V unless otherwise specified.
16 Lead SO Wide
PARAMETER
■ Input, Current, Delay
Positive Threshold
Hysteresis
ICC
Input Impedance
TEST CONDITIONS
MIN
VBAT = 6V
VBAT = 16V
VBAT = 6V
VBAT = 16V
VBAT = 6V
VBAT = 16V
@10µA
@0.1mA
8
8
1
5
70
TYP
MAX
56.2
56.2
66
66
20.2
20.2
2.75
12
170
IC Process Delay
■ Output
Output Current
Output SOA Current
Output Leakage Current
Output Clamp Voltage
Output Clamp Impedance
■ Regulation Voltage
VS Regulation Voltage
VS Supply Rejection
■ Stall & Protection
Stall Shutdown VS
Stall Shutdown Frequency
Stall Shutdown Time
Stall to Spark Output Delay
I/O Signal Relationship
4.5
19
400
Flip Chip
MIN
TYP
MAX
UNIT
56.2
56.2
66
66
% of VBAT
% of VBAT
9
9
1
5
20.2
20.2
2.75
12
70
170
400
15
% of VBAT
% of VBAT
mA
mA
kΩ
kΩ
µs
40
40
65
65
100
17
80
mA
mA
µA
V
Ω
15
VBAT = 6V, 2.1V output load
VBAT = 22V (Note 1)
VBAT = 25V (Note 1)
@ 10mA
@ 10mA
VBAT = 7.8V
VBAT = 6V ~ 22V (Note 1)
VBAT = 7.8V ~ 22V (Note 1)
VBAT = 6V
VBAT = 14V
VBAT = 5.5V
VBAT = 6V
40
40
13.7
10
52.5
52.5
0
15.35
42.5
65
65
100
17
80
13.7
10
52.5
52.5
0
15.35
42.5
165
0
0
200
0
0
235
14
13
165
0
0
200
0
0
235
14
13
mV
%
%
-5
.4
0
5
-1
.4
0
1
1.4
28
6.7
80.5
50.5
30.5
1.47
37
9.5
82.0
52.0
32.0
750
800
32
5
1.4
28
6.7
80.0
50.0
30.0
1.47
37
9.5
81.0
51.0
31.0
750
800
31
5
mV
Hz
Hz
ms
ms
%
%
%
ms
ms
V
kHz
% of VBAT
% of VBAT
19
4.6
79.0
49.0
29.0
25
@ 80% Input
@ 50% Input
@ 30% Input
Battery Interrupt Time
Battery Interrupt Recovery Time @ 200Hz
High Voltage Shutdown
High Frequency Cut off
Negative Threshold
VBAT = 6V
VBAT = 16V
4.5
19
25
1
28
28
28
2.5
36
36
19
4.6
79.0
49.0
29.0
25
25
1
30
30
28
2.5
36
36
Note 1: Voltage extremes are for testing purposes only. Part in continuous operation should conform to absolute max
table.
2
CS464
Package Pin Description
PACKAGE PIN #
PIN SYMBOL
FUNCTION
Flip-Chip
(Bump #)
16 Lead
SO Wide
1
13
OUT
Output control of darlington driver.
2
15
S
Current sense feedback input.
3
16
CS
Stall timer capacitor.
4
1
MB
Master current bias resistor.
5
2,3,6,7,10,14
NC
No connection.
6
4
CR
Reset capacitor.
7
5
IN+
Input control.
IN-
Negative input control (grounded in 16 Lead SO package).
8
9
8
Gnd
Ground.
10
9
VCC
Input supply voltage.
11
11
D
Darlington drive supply input.
12
12
IC
Input collector voltage sense.
TEST
Test bump, grounded.
13
Block Diagram
RVCC
330Ω
VBAT
CVCC
0.1µF
RMB
10.7k
VCC
MB
VR
CS
0.47µF
CR
0.1µF
CS
CR
VR
VR
VR
PNP Current Source Bias
25%
8.4µA
149µA
149k
VR
P2
VBG
Power
Supply
33.6µA
1.1µA
25%
RD
55Ω, 5W
INPUT
RIN+ IN+
Negative
Edge
Filter
LOGIC1
VIN
10k
C
Q
8k
BG
−
CR
BG
CS
DWELL
VR
N2
N1
−
BG
ND1
ND2
13.7V
Clamp
RIC2
4k
N3
BG
+
7k
+
N5
IC
−
−
OUT
+
N4
+
63.7k
P1
−
OVS
100k
VREF
Spark Plug
ZD
18V
+
5k
D
VR
Combinational
Logic
ILIMIT
R
CR
To CR, CS Current Sources
25%
CR > VREF
STALL
D
VR
25%∗Stall
31.9µA
−
OVS
Gnd
25%
+
RIC1
200Ω
2.55k
S
+
0.63k
−
Adjust for 6.5A Coil Current
RS1
56Ω
12k
3
RS2
0.05Ω, 5W
CS464
Package Specification
PACKAGE DIMENSIONS IN mm (INCHES)
PACKAGE THERMAL DATA
Thermal Data
RΘJC
typ
RΘJA
typ
D
Lead Count
Metric
Max
Min
10.50 10.10
16 Lead SO Wide
English
Max Min
.413 .398
16 Lead SO Wide
23
105
°C/W
°C/W
Surface Mount Wide Body (DW); 300 mil wide
7.60 (.299)
7.40 (.291)
10.65 (.419)
10.00 (.394)
0.51 (.020)
0.33 (.013)
1.27 (.050) BSC
2.49 (.098)
2.24 (.088)
2.65 (.104)
2.35 (.093)
0.32 (.013)
0.23 (.009)
1.27 (.050)
0.40 (.016)
0.30 (.012)
0.10 (.004)
D
REF: JEDEC MS-013
Flip-Chip
.350
13X .165 ± .038
.267
0
.525 ± .05
1.022
1.022
1.020
CA
MB
CS
S
CR
.496
OUT
.279
2.39
CS-464
Flip-Chip
0
IN+
.356
.431
0
IC
.382
Test
VCC
IN- Gnd
1.021
D
.892
.265
.209
.892
13X .095 ± .045
.384
1.017
.0302 MAX
2.14
0
Note: All dimensions in millimeters.
Bump Locations, Bump Side Up
Ordering Information
Part Number
CS464H
CS464YDW16
CS464YDWR16
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Description
Flip-Chip
16 Lead SO Wide
16 Lead SO Wide (tape & reel)
4
© Semiconductor Components Industries, LLC, 2000