INTERSIL ISL6436HIB-T

ISL6436
TM
Data Sheet
August 2001
File Number
9023
USB Dual Port Power Supply Controller
Features
The ISL6436 is a USB dual port power controller, fully
independent overcurrent (OC) fault protection IC.
Operational over the +2.5V to +5.5V range, this device
features internal current monitoring, accurate current
limiting, integrated power switches and current limited
delay to latch-off for system protection.
• 80mΩ Integrated Power N-channel MOSFET Switches
• Accurate Current Sensing and 1A Current Limiting
• 12ms Fault Delay to Latch-Off, No Thermal Dependency
• 2.5V to 5.5V Operating Range
• Disabled Output Internally Pulled Low
The ISL6436 current sense and limiting circuitry sets the
current limit to a nominal 1A, making this device well suited for
the USB port power management application. The ISL6436
provides OC fault notification, accurate current limiting and a
consistent timed latch-off thus isolating and protecting the
voltage bus in the presence of an OC event or short circuit. The
12ms time to latch-off is independent of the adjoining switch’s
electrical or thermal condition and the OC response time is
inversely related to the OC magnitude.
Each ISL6436 incorporates in a single 8 lead SOIC
package two 80mΩ N-channel MOSFET power switches
for power control. Each switch is driven by a constant
current source giving a controlled ramp up of the output
voltage. This provides a soft start turn-on eliminating bus
voltage drooping caused by inrush current while charging
heavy load capacitances. Independent enabling inputs and
fault reporting outputs for each channel are compatible with
3V and 5V logic to allow external control and monitoring.
The ISL6436 undervoltage lockout feature prevents turn-on
of the outputs unless the correct ENABLE state and VIN >
2.5V are present. During initial turn-on the ISL6436
prevents fault reporting by blanking the fault signal. Rising
and falling outputs are current limited voltage ramps so that
both the inrush current and voltage slew rate are limited,
independent of load. This reduces supply droop due to
surge and eliminates the need for external EMI filters.
During operation, once an OC condition is detected the
appropriate output is current limited for 12ms to allow
transient conditions to pass. If still in current limit after the
current limit period has elapsed, the output is then latched
off and the fault is reported by pulling the corresponding
FAULT low. The FAULT signal is latched low until reset by
the ENABLE signal being de-asserted at which time the
FAULT signal will clear.
1
• Undervoltage Lockout
• Controlled Turn-on Ramp Time
• Channel Independent Fault Output Signals
• Compatible with 3.3V and 5V Logic Families
• Channel Independent Logic Level Enable High Inputs
(ISL6436H) or Enable Low Inputs (ISL6436L)
Applications
• USB Port Power Management
• Electronic Circuit Limiting and Breaker
Ordering Information
PART NUMBER
TEMP.
RANGE
(oC)
PACKAGE
PKG. NO.
ISL6436LIB
-40 to 85 8 Lead SOIC
ISL6436LIB-T
-40 to 85 8 Lead SOIC Tape and Reel
ISL6436HIB
-40 to 85 8 Lead SOIC
ISL6436HIB-T
-40 to 85 8 Lead SOIC Tape and Reel
ISL6436EVAL1
M8.15
M8.15
Evaluation Platform
ISL6436USBEVAL1 USB Dual Port Evaluation Platform
Pinout
ISL6436 (SOIC)
TOP VIEW
GND
1
8
FAULT_1
VIN
2
7
OUT_1
ENABLE_1
3
6
OUT_2
ENABLE_2
4
5
FAULT_2
CAUTION: These devices are sensitive to electrostatic discharge; follow proper IC Handling Procedures.
1-888-INTERSIL or 321-724-7143 | Intersil and Design is a trademark of Intersil Americas Inc.
Copyright © Intersil Americas Inc. 2001, All Rights Reserved
ISL6436
Typical Application: Dual USB Port Power
D+
D-
U
S
B
USB
PORT 1
V+
OUT_1
ENABLE_1
FAULT_1
C
O
N
T
R
O
L
L
E
R
+5V
VIN
GND
ISL6436L
FAULT_2
ENABLE_2
OUT_2
V+
USB
PORT_2
D+
D-
Simplified Block Diagram
CHANNEL 1 LIKE CHANNEL 2
GND
FAULT_1
VIN
OUT_1
Q-PUMP
POR
EN_1
EN_2
2
CURRENT AND TEMP.
MONITORING, GATE AND
OUTPUT CONTROL
LOGIC
OUT_2
FAULT_2
ISL6436
Pin Descriptions
PIN NO.
DESIGNATOR
FUNCTION
DESCRIPTION
1
GND
IC Reference
2
VIN
Chip bias, Controlled
Supply Input,
Undervoltage lock-out
VIN provides chip bias voltage. At VIN < 2.5V chip functionality is disabled, FAULT latch
is cleared and floating and OUT is held low.
3, 4
ENABLE_1, 2 /
ENABLE_1,2
Channel Enable /
Enable Not Inputs
Enables / Disables switch.
5, 8
FAULT_2, 1
Channel 2, 1 Over
Current Fault Not
Indicator
Channel overcurrent fault indicator. FAULT floats and is disabled until VIN >2.5V. This
output is pulled low after the OC timeout period has expired and stays latched until
ENABLE is deasserted.
6, 7
OUT_2, 1
Channel 2,1 Controlled Channel voltage output, connect to load to protect. Upon an OC condition IOUT is
Supply Output
current limited to 1A. Current limit response time is within 200µS. This output will remain
in current limit for a nominal 12ms before being latched off.
3
ISL6436
Absolute Maximum Ratings
Thermal Information
Supply Voltage (VIN to GND). . . . . . . . . . . . . . . . . . . . . . . . . . . 6.0V
EN, FAULT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -0.3V to 6V
OUT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . GND -0.3V to VIN 0.3V
Output Current . . . . . . . . . . . . . . . . . . . . . . . Short Circuit Protected
ESD Rating
Human Body Model (Per MIL-STD-883 Method 3015.7) . . . . . 3kV
Thermal Resistance (Typical, Note 1)
θJA (oC/W)
8 Lead SOIC Package . . . . . . . . . . . . . . . . . . . . . . .
116
Maximum Junction Temperature . . . . . . . . . . . . . . . . . . . . . . . 150oC
Maximum Storage Temperature Range . . . . . . . . . . -65oC to 150oC
Maximum Lead Temperature (Soldering 10s) . . . . . . . . . . . . . 300oC
(SSOP - Lead Tips Only)
Operating Conditions
Temperature Range . . . . . . . . . . . . . . . . . . . . . . . . . . -40oC to 85oC
Supply Voltage Range (Typical). . . . . . . . . . . . . . . . . . 2.7V to 5.5V
CAUTION: Stresses above those listed in “Absolute Maximum Ratings” may cause permanent damage to the device. This is a stress only rating and operation of the
device at these or any other conditions above those indicated in the operational sections of this specification is not implied.
NOTE:
1. θJA is measured with the component mounted on a low effective thermal conductivity test board in free air. See Tech Brief TB379 for details.
Supply Voltages = 5V, TA = TJ = -40 to 85oC, Unless Otherwise Specified
Electrical Specifications
PARAMETER
SYMBOL
TEST CONDITIONS
MIN
TYP
MAX
UNITS
POWER SWITCH
ISL6436 On Resistance at 2.7V
rDS(ON)_27
ISL6436 On Resistance at 3.3V
rDS(ON)_33
ISL6436 On Resistance at 5.0V
rDS(ON)_50
Disabled Output Voltage
VOUT_DIS
Vout Rising Rate
t_vout_rt
VIN = 2.7V, IOUT = 0.7A, TA = TJ = 25oC
-
90
105
mΩ
TA = TJ = 85oC
-
115
130
mΩ
VIN = 3.3V, IOUT = 0.7A, TA = TJ = 25oC
-
80
100
mΩ
TA = TJ = 85oC
-
115
130
mΩ
VIN = 5V, IOUT = 0.7A TA = TJ = 25oC
-
80
95
mΩ
TA = TJ = 85oC
-
115
130
mΩ
VIN = 5V, Switch Disabled, 50µA Load
-
300
450
mV
RL = 10Ω, CL = 0.1µF, 10%-90%
-
10
-
V/ms
Slow Vout Turn-off Rate
t_svout_offt
RL = 10Ω, CL = 0.1µF, 90%-10%
-
10
-
V/ms
Fast Vout Turn-off Rate
t_fvout_offt
RL = 1Ω, CL = 0.1µF, 90%-10%
-
4
-
V/µs
CURRENT CONTROL
Current Limit, VIN = 3.3V - 5V
Ilim
0.75
1
1.25
A
OC Regulation Settling Time
tsettIlim
RL = 5Ω, CL = 0.1µF to Within 10% of CR
VOUT = 0.8V
-
2
-
ms
tsettIlim_sev
RL< 1Ω, CL = 0.1µF to Within 10% of CR
-
100
-
µs
tOC_loff
ISL6436X, TJ = 25oC
-
10
-
ms
Fault Output Voltage
Vfault_hi
Fault IOUT = 10mA
-
-
0.4
V
ENABLE High Threshold
Ven_vih
VIN = 5.5V
2.0
-
-
V
ENABLE Low Threshold at 2.7V
Ven_vil
VIN = 2.7V
-
-
0.6
V
ENABLE Low Threshold at 5.5V
Ven_vil
VIN = 5.5V
Severe OC Regulation Settling Time
Over Current Latch-off Time
I/O PARAMETERS
-
-
0.8
V
-0.5
-
0.5
µA
Switches Closed, OUTPUT = OPEN, TJ >0oC
-
120
200
µA
Switches Open, OUTPUT = OPEN
-
1
5
µA
1.7
2.25
2.5
V
Ien_i
ENABLE = 0V to 5V, VIN = 5V, TJ >25oC
Enabled VIN Current
IVDD
Disabled VIN Current
IVDD
ENABLE Input Current
BIAS PARAMETERS
VIN Rising, Switch Enabled
Undervoltage Lockout Threshold
VUVLO
UV Hysteresis
UVHYS
50
100
-
mV
Temp_dis
-
150
-
oC
Overtemperature Disable
Introduction
The ISL6436 is a fully independent dual channel overcurrent
(OC) fault protection IC for the +2.5V to +5.5V environment.
Each ISL6436 incorporates in a single 8 lead SOIC package
two 80mΩ N-channel MOSFET power switches for power
control. Independent enabling inputs and fault reporting outputs
compatible with 3V and 5V logic allows for external control and
4
monitoring. This device features internal current monitoring,
accurate current limiting, integrated power switches and current
limited timed delay to latch-off for system protection. See Figure
1 for typical operational waveforms including both under and
over current situations.
Key Feature Description and Operation
ISL6436
UV Lock Out
The ISL6436 undervoltage lockout feature prevents
functionality of the device unless the correct ENABLE state and
VIN > 2.5V are present.
Soft Start
A constant 500nA current source ramps up the switch’s gate
causing a voltage follower effect on the output voltage. This
provides a soft start turn-on eliminating bus voltage drooping
caused by in-rush current charging heavy load capacitances.
Rising and falling outputs are current limited voltage ramps so
that both the inrush current and voltage slew rate are limited,
independent of load. This reduces supply droop due to surge
and also eliminates the need for EMI filters necessary on other
IC products.
Fault Blanking On Start-Up
During initial turn-on the ISL6436 prevents nuisance faults
being reported to the system controller by blanking the fault
signal for 12ms. This blanking eliminates the need for external
RC filters necessary for other vendor products that assert a
fault signal upon initial turn-on into a temporary high current
condition. See Figures 10 through 12 for waveform examples.
If, after the ISL6436 has latched off, and the fault has asserted
and, the enable is not deasserted but the OC condition still
exists, the ISL6436 unlike other IC devices does not send to
the controller a continuous string of fault pulses. The
ISL6436’s single fault signal is sent at the time of latch-off
unlike other devices.
Slow And Fast Shutdown
The ISL6436 has two shutdown modes. When turned off
with a load current less than the current regulation (CR)
level the ISL6436 shuts down in a controlled manner using
a 500nA constant current source controlled ramp. When
latched off due to CR and the timer has expired, the
ISL6436 quickly pulls down the output thereby quickly
removing the faulted load from the voltage bus. See
Figures 8 and 9 for waveforms of each mode.
Active Output Pulldown
Another unique ISL6436 feature is the active pull down on
the outputs to 300mV above GND when the device is
disabled. Competitors’ parts’ switch leakage causes the
output voltage to drift up to VIN voltage even when the part
is supposed to be disabled.
Current Regulation
The ISL6436 has integrated current sensing on the power
MOSFET that allows for rapid control of OC events. Once an
OC is detected the ISL6436 goes into its current regulation
(CR) control mode. The ISL6436 CR level is set to a nominal
1A. This current regulation is ±25% over the full operating
temperature and voltage bias range. See Figures 4 and 5 for
illustrative curves. The speed of this control is inversely related
to the magnitude of the OC fault. Thus a hard over current is
more quickly controlled than a marginal OC condition. See
Figure 6 for waveforms illustrating this and Figure 7 for an
accompanying graph.
Over Temperature Shutdown
Although the ISL6436 has a thermal shutdown feature,
because of the 12ms timed shutdown this will only be invoked
in extremely high ambient temperatures.
ON
FAULT
OFF
ENABLE
LATCH-OFF SET
RESET BY
ENABLE
CURRENT
REGULATION
SETTLING TIME
(1.4ms)
VOUT
OVER CURRENT
1A CURRENT
LIMIT
IOUT
12ms CURRENT REGULATION PERIOD
FIGURE 1. TYPICAL OPERATIONAL WAVEFORMS
Latch-Off Time Delay
The primary function of any OC protection device is to quickly
isolate the voltage bus from a faulty load. Unlike many other
IC products that sense the IC thermal condition (the monitored
IC junction temperature depends on a number of factors the
most important of which are power dissipation of the faulted
and adjacent switches and package temp) to isolate a faulty
load, the ISL6436 uses an internal 12ms timer that starts upon
OC detection. Once an OC condition is detected the
appropriate output is current limited for a maximum of 12ms to
allow transient conditions to pass before latch-off. This time to
latch-off is independent of device thermal or adjacent switch
condition. See Figure 18 for waveforms illustrating
independent latch-off.
5
ISL6436
Typical Performance Curves
ENABLE
SWITCH ON RESISTANCE (mΩ)
120
110
100
10µF
VIN = 2.7V
90
CL = 0.1µF
VIN = 5V
80
70
60
CL = 100µF
VIN = 3.3V
OUTPUT
50
40
-40 -30 -20 -10 0
10 20 30 40 50 60 70 80 90 100
TEMPERATURE (oC)
TIME (400µs /DIV.)
FIGURE 2. SWITCH ON RESISTANCE AT 0.7A
FIGURE 3. VOUT SOFT START vs CLOAD, Rl =10Ω
3.1
1200
1200
-40oC
-40oC
1100
1000
IOUT (mA)
IOUT (mA)
1100
25oC
25oC
1000
85oC
900
900
85oC
800
800
1.25
1.5
1.75
2.0
2.25
VOUT (V)
2.5
2.75
3.0
1.3 1.5
2.0
2.5
3.0
3.5
4.0
4.5 4.8
VOUT (V)
FIGURE 4. CURRENT REGULATION vs VOUT (VIN = 3.3V)
FIGURE 5. CURRENT REGULATION vs VOUT (VIN = 5.0V)
CURRENT REGULATED
LEVEL
NOMINAL CURRENT
1.4
1.2
1.0
0.8
0.6
0.4
0.2
0
TIME (200µs/DIV.)
FIGURE 6. OC TO CR SETTLING TIME WAVEFORMS
6
TIME TO CURRENT REGULATION (ms)
OUTPUT CURRENT (1A/DIV.)
1.6
1
2
3
4
5
6
7
8
9
FAULT CURRENT (A)
FIGURE 7. CR SETTLING TIME vs FAULT CURRENT
10
ISL6436
Typical Performance Curves
(Continued)
ENABLE
CL = 10µF
CL = 10µF
CL = 100µF
CL = 100µF
CL = 0.1µF
VOUT
VOUT
CL = 0.1µF
VOUT VOLTAGE (1V/DIV.)
VOUT
TIME (400µs /DIV.)
VOUT VOLTAGE (1V/ DIV.)
FIGURE 8. SLOW TURN -OFF vs C LOAD, Rl = 10Ω
TIME (400µs /DIV.)
FIGURE 9. FAST TURN-OFF vs CLOAD
ENABLE
FAULT
ENABLE
FAULT
VOUT
VOUT
VOUT (1V/ DIV.)
TIME (2ms /DIV.)
FIGURE 10. ISL6436L TURN-ON INTO 1.5A OCS
VOLTAGE (2V/DIV.)
TIME (2ms /DIV.)
FIGURE 11. ISL6436L TURN-ON INTO 1.5A MOMENTARY OC
ENABLE
VDD = 5.08V
FAULT
ISL6436 = 5.04 VOUT
PPTC = 4.98 VOUT
VOUT
TIME (2ms /DIV.)
FIGURE 12. VENDOR IC TURN-ON INTO MOMENTARY OC
7
VOUT (100mV/ DIV.)
FIGURE 13. ISL6436 vs PPTC INTO 500mA LOAD
ISL6436
Typical Performance Curves
(Continued)
PPTC
PPTC
8s
ISL6436
0.012s
ISL6436
VOUT (1V/ DIV.)
TIME (10ms/DIV.)
FIGURE 14. ISL6436 vs PPTC PLUGGED ONTO 1.5A LOAD
ENABLE
VOUT (1V/DIV.)
TIME (1s/DIV.)
FIGURE 15. ISL6436 vs PPTC WITH EXTENDED 1.5A LOAD
ENABLE
ISL6436
COMP IC
COMP IC
ISL6436
VOUT (1V/ DIV.)
TIME (1ms/DIV.)
FIGURE 16. COMPARATIVE TURN-ON WAVEFORMS, Rl = 10Ω
VOUT (1V/ DIV.)
FIGURE 17. COMPARATIVE TURN-OFF WAVEFORMS
VIN
OUT 1
VOUT 2 = 3.7V IN CURRENT
REGULATION
OUT 2
VOLTAGE (1V/ DIV.)
TIME (100µs/ DIV.)
FIGURE 18. SWITCH FAULT INDEPENDENCE
8
TIME (2ms/ DIV.)
ISL6436
Using the ISL6436EVAL1 Platform
General and Biasing Information
The ISL6436EVAL1 platform, Figure 19, allows evaluation of
the ISL6436 dual power supply control IC and comparison
against a suitably sized PPTC component.
The evaluation platform is biased and monitored through
numerous test points (TP#). See Table 1 for test point
assignments and descriptions.
TABLE 1. ISL6436EVAL1 TEST POINT ASSIGNMENTS
TP #
DESCRIPTION
TP1
Eval Board and IC GND
TP2
Eval Bd +5V Bias
TP3
Enable Switch 1
TP4
Enable Switch 2
TP5
Switch 2 Fault
TP6
Switch Out 2
TP7
Switch Out 1
TP8
Switch 1 Fault
TP9
IC VIN Pin
TP10
PPTC Load Side
TP11
Invoke Overcurrent
isolation evaluation in the presence of an OC condition can be
evaluated. See Figure 18.
The primary function of any OC protection device is to
quickly isolate the voltage bus from a faulty load. Unlike the
PPTC and other vendor available IC products, the ISL6436
internal timer that starts upon OC detection provides
consistent protection that is not temperature dependent. See
Figures 14 and 15 for a comparison of the time to protection
offered by the ISL6436 vs the PPTC. Figure 14 illustrates the
ISL6436 timed latch-off of 12mS with a 1.5A load and Figure
15 shows the 8s latch-off of the PPTC at approximately its
trip current rating of 1.5A.
Using the ISL6436USBEVAL1 Platform
General and Biasing Information
The ISL6436USBEVAL1 platform, Figure 20 allows
evaluation of the ISL6436 dual power supply control IC in an
USB environment.
The evaluation platform is biased and monitored through
numerous test points (TP#), see Table 2 for test point
assignments and descriptions.
TABLE 2. ISL6436USBEVAL1 TEST POINT ASSIGNMENTS
Upon proper bias the PPTC, F1 has a nominal 500mA load
current passing through it which is the hold current rating for
that particular device. Removal of the PPTC is necessary to
isolate the ISL6436 as the PPTC load current is common to
the ISL6436EVAL1 bias connections.
By enabling either or both of the ISL6436L switches by
signaling TP3 and / or TP4 low (<0.6V) these switches are
also loaded with a nominal 500mA current. See Figures 3
and 8 for typical ISL6436 turn-on and off waveforms.
Provided test points enable the evaluation of voltage loss
across the PPTC (TP9 - TP10) and the ISL6436 enabled
switches (TP9 - TP6 and TP7). Expect to see 50% - 300%
greater voltage loss across typical PPTCs devices than the
ISL6436. See Figure 13 for a voltage loss comparison
across ISL6436 and PPTC device.
An overcurrent (OC) condition can be invoked on both the
ISL6436 and the PPTC by driving TP11 to +6V, causing SW1
to close and a nominal 1.5A load is imposed. This represents
a current over load to the ISL6436 and is thus quickly current
regulated to the 1A limit. If the OC duration extends beyond
the nominal 12ms of the internal ISL6436L timer then the
output is latched off and the fault output is asserted by being
pulled low turning on the appropriate FAULT LED, see Figure
10. (Please note: the labeling for FAULT-1 and FAULT-2 is
reversed). The eval board is designed to only invoke an OC
condition on channel 2 (TP4) so that a channel to channel
9
TP #
DESCRIPTION
TP1
Eval Board and IC GND
TP2
Eval Bd +5V Bias
TP3
Enable Switch 1
TP4
Enable Switch 2
TP5
Switch 1 Fault
TP8
Switch 2 Fault
Upon proper bias the ISL6436L is held off through pull up
resistors on the enable pins and is enabled by signaling
either or both of the ISL6436L switches TP3, and / or TP4
low (<0.6V).
The USB connector is provided so that either test loads or
USB peripherals can be powered. In addition, differential
signalling (D+ and D-) access points are provided for each
output port so that I/O activity can also be conducted in a
prototype environment.
ISL6436
C2
ISL6436EVAL1
D2
R1
D3
R6
R8
C3
C1
FAULT_OUT1 8
1
TP2
(VIN)
2 VIN
R4
OUT1 7
ISL6436
TP3
3 EN1
OUT2 6
TP4
4 EN2 FAULT_OUT2 5
R2
D4
R7
R9
SW1
D1
C4
R5
R3
F1
D5
R10
FIGURE 19. ISL6436EVAL1 BOARD SCHEMATIC AND PHOTOGRAPH
TABLE 3. ISL6436EVAL1 BOARD COMPONENT LISTING
COMPONENT
DESIGNATOR
DUT1
COMPONENT FUNCTION
COMPONENT DESCRIPTION
ISL6436
Intersil, ISL6436LIB 3.3V Aux HotPlug Controller
R1 - R3
500mA Nominal Load Resistors
YAGEO, 10Ω, 5%, 5W, 10W-5-ND
R4 - R5
1.5A Current Over Load Resistors
YAGEO, 5Ω, 5%, 5W, 5W-5-ND
R6 - R10
LED Current Limiting Resistor
470Ω, 0805
Decoupling Capacitor
0.1µF, 0805
C2 - C4
Load Capacitor
10µF 16V Electrolytic, Radial Lead
D1 - D5
Indicating LEDs
0805, SMD LEDs Red
F1
PPTC (Polymer Positive Temperature Coefficient)
Raychem, Poly Switch, RXE075 or Equivalent
SW1(Q1)
Current Over Load Invoking Switch Access TP11
Intersil, ITF86110DK8T, 7.5A, 30V, 0.025Ω, Dual N-channel, Logic
Level Power MOSFET
C1
10
ISL6436
ISL6436USBEVAL1
C1
1
VIN
2
FAULT_OUT
8
OUT
7
VIN
R1
ISL6436
3
EN
OUT
6
4
EN
FAULT_OUT
5
R2
C3
C2
L1
L3
1 23 4
1 23 4
L2
L4
CON1
FIGURE 20. ISL6436USBEVAL BOARD
TABLE 4.
COMPONENT
DESIGNATOR
COMPONENT NAME
COMPONENT DESCRIPTION
ISL6436USBEVAL1
DUT1
ISL6436L
Intersil, ISL6436L 5V USB HotPlug Controller
C1
Chip Decoupling Capacitor
0.1µF, 0805
C2 - C3
V+ Decoupling Capacitors
100µF 16V Electrolytic, Radial Lead
L1 - L4
V+ And GND Stability Inductors
220nH, 0805 (OPTIONAL FOR IMPLEMENTATION)
CON1
Dual Stacked USB Type A Connector
ASSMANN, AU-Y1008 or Equivalent
Pull-Up Resistors
1.2Ωk, 0805
R1 - R2
11
ISL6436
Small Outline Plastic Packages (SOIC)
M8.15 (JEDEC MS-012-AA ISSUE C)
N
INDEX
AREA
0.25(0.010) M
H
8 LEAD NARROW BODY SMALL OUTLINE PLASTIC
PACKAGE
B M
E
INCHES
-B-
1
2
SYMBOL
3
L
SEATING PLANE
-A-
h x 45o
A
D
-C-
µα
e
A1
B
0.25(0.010) M
C
C A M
B S
MAX
MIN
MAX
NOTES
A
0.0532
0.0688
1.35
1.75
-
A1
0.0040
0.0098
0.10
0.25
-
B
0.013
0.020
0.33
0.51
9
C
0.0075
0.0098
0.19
0.25
-
D
0.1890
0.1968
4.80
5.00
3
E
0.1497
0.1574
3.80
4.00
4
e
0.10(0.004)
0.050 BSC
1. Symbols are defined in the “MO Series Symbol List” in Section 2.2 of
Publication Number 95.
1.27 BSC
H
0.2284
0.2440
5.80
h
0.0099
0.0196
L
0.016
0.050
8o
0o
N
NOTES:
MILLIMETERS
MIN
α
-
0.25
0.50
5
0.40
1.27
6
8
0o
-
6.20
8
7
8o
Rev. 0 12/93
2. Dimensioning and tolerancing per ANSI Y14.5M-1982.
3. Dimension “D” does not include mold flash, protrusions or gate burrs.
Mold flash, protrusion and gate burrs shall not exceed 0.15mm (0.006
inch) per side.
4. Dimension “E” does not include interlead flash or protrusions. Interlead flash and protrusions shall not exceed 0.25mm (0.010 inch) per
side.
5. The chamfer on the body is optional. If it is not present, a visual index
feature must be located within the crosshatched area.
6. “L” is the length of terminal for soldering to a substrate.
7. “N” is the number of terminal positions.
8. Terminal numbers are shown for reference only.
9. The lead width “B”, as measured 0.36mm (0.014 inch) or greater
above the seating plane, shall not exceed a maximum value of
0.61mm (0.024 inch).
10. Controlling dimension: MILLIMETER. Converted inch dimensions
are not necessarily exact.
All Intersil products are manufactured, assembled and tested utilizing ISO9000 quality systems.
Intersil Corporation’s quality certifications can be viewed at www.intersil.com/design/quality
Intersil products are sold by description only. Intersil Corporation reserves the right to make changes in circuit design and/or specifications at any time without notice.
Accordingly, the reader is cautioned to verify that data sheets are current before placing orders. Information furnished by Intersil is believed to be accurate and reliable.
However, no responsibility is assumed by Intersil or its subsidiaries for its use; nor for any infringements 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 Intersil or its subsidiaries.
For information regarding Intersil Corporation and its products, see www.intersil.com
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12
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