ETC LM555J/883

MICROCIRCUIT DATA SHEET
Original Creation Date: 08/02/95
Last Update Date: 02/17/97
Last Major Revision Date: 08/02/95
MNLM555-X REV 0B0
PRECISION TIMER
General Description
The LM555 is a highly stable device for generating accurate time delays or oscillation.
Additional terminals are provided for triggering or resetting if desired. In the time
delay mode of operation, the time is precisely controlled by one external resistor and
capacitor. For astable operation as an oscillator, the free running frequency and duty
cycle are accurately controlled with two external resistors and one capacitor. The circuit
may be triggered and reset on falling waveforms, and the output circuit can source or sink
up to 200mA or drive TTL circuits.
Industry Part Number
NS Part Numbers
LM555
LM555H/883
LM555J/883
Prime Die
LM555
Processing
Subgrp Description
MIL-STD-883, Method 5004
1
2
3
4
5
6
7
8A
8B
9
10
11
Quality Conformance Inspection
MIL-STD-883, Method 5005
1
Static tests at
Static tests at
Static tests at
Dynamic tests at
Dynamic tests at
Dynamic tests at
Functional tests at
Functional tests at
Functional tests at
Switching tests at
Switching tests at
Switching tests at
Temp ( oC)
+25
+125
-55
+25
+125
-55
+25
+125
-55
+25
+125
-55
MICROCIRCUIT DATA SHEET
MNLM555-X REV 0B0
Features
-
Direct replacement for SE555/NE555
Timing from microseconds through hours
Operates in both astable and monostable modes
Adjustable duty cycle
Output can source or sink 200mA
Output and supply TTL compatible
Temperature stability better than 0.005% per degrees C
Normally on and normally off output
Applications
-
Precision timing
Pulse generation
Sequential timing
Time delay generation
Pulse width modulation
Pulse position modulation
Linear ramp generator
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MICROCIRCUIT DATA SHEET
MNLM555-X REV 0B0
(Absolute Maximum Ratings)
(Note 1)
Supply Voltage
+18V
Power Dissipation
(Note 2)
LM555H
LM555J
Operating Temperature Range
760 mW
1180mW
-55 C to +125 C
Maximum Junction Temperature
150 C
Storage Temperature Range
-65 C to +150 C
Soldering Information
Dual-In-Line Package
(Soldering, 10 seconds)
Thermal Resistance
ThetaJA
CERDIP
(Still Air)
(500LF/Min Air flow)
METAL CAN
(Still Air)
(500LF/Min Air flow)
260 C
125
71
176
96
ThetaJC
CERDIP
METAL CAN
ESD Tolerance
(Note 3)
C/W
C/W
C/W
C/W
20 C/W
42 C/W
500V
Note 1:
Note 2:
Note 3:
Absolute Maximum Ratings indicate limits beyond which damage to the device may occur.
Operating Ratings indicate conditions for which the device is functional, but do not
guarantee specific performance limits. For guaranteed specifications and test
conditions, see the Electrical Characteristics. The guaranteed specifications apply
only for the test conditions listed. Some performance characteristics may degrade
when the device is not operated under the listed test conditions.
The maximum power dissipation must be derated at elevated temperatures and is
dictated by Tjmax (maximum junction temperature), ThetaJA (package junction to
ambient thermal resistance), and TA (ambient temperature). The maximum allowable
power dissipation at any temperature is Pdmax (Tjmax - TA)/ThetaJA or the number
given in the Absolute Maximum Ratings, whichever is lower.
Human body model, 1.5K Ohms in series with 100pF.
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MICROCIRCUIT DATA SHEET
MNLM555-X REV 0B0
Electrical Characteristics
DC PARAMETERS
(The following conditions apply to all the following parameters, unless otherwise specified.)
DC: +5V <= Vcc <= +15V
SYMBOL
IccL
PARAMETER
Supply Current
Low State
CONDITIONS
NOTES
PINNAME
MIN
MAX
UNIT
SUBGROUPS
Vcc = 5V, RL = Infinity
5.0
mA
1
Vcc = 15V, RL = Infinity
12.0
mA
1
Vcc = 18V, RL = Infinity,
V2 = V6 = 18V
18.5
mA
1
IL7
Leakage Current
Pin 7
Vcc = 18V, V7 = 18V, V2 = V6 = 0
100
nA
1
Vsat
Saturation
Voltage Pin 7
Vcc = 15V, I7 = 15mA, V2=V6=12V
240
mV
1
Vcc = 4.5V, I7 = 4.5mA
80
mV
1
Vco
Control Voltage
Vcc = 5V, V2 = V6 = 4V
2.9
3.8
V
1, 2,
3
Vcc = 15V, V2 = V6 = 12V
9.6
10.4
V
1, 2,
3
9.5
10.5
V
1
Vth
Threshold Voltage
Ith
Threshold Current
V6 = VTH, V2 = 7.5V, VTH = T17 Reading
250
nA
1
ITRIG
Trigger Current
V2 = 0
500
nA
1
VTRIG
Trigger Voltage
Vcc = 15V
4.8
5.2
V
1
3.0
6.0
V
2, 3
1.45
1.9
V
1, 2,
3
0.4
mA
1
1.0
V
1
Vcc = 5V, Isink = +8mA, V7=5V, V6=5V
250
mV
1, 2,
3
Vcc = 15V, Isink = +10mA, V2=V6=15V
150
mV
1
250
mV
2, 3
500
mV
1
800
mV
2, 3
2.2
V
1, 2,
3
13
V
1
12.75
V
2, 3
3
V
1
2.75
V
2, 3
Vcc = 5V
Ireset
Reset Current
Vreset
Reset Voltage
Vol
Output Voltage
Drop Low
1
V2 = V6 = GND
0.4
Vcc = 15V, Isink = +50mA, V2=V6=15V
Vcc = 15V, Isink = +85mA, V2=V6=15V
Voh
Output Voltage
Drop High
Vcc = 15V, Isource = 85mA
Vcc = 5V, Isource = 85mA
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MICROCIRCUIT DATA SHEET
MNLM555-X REV 0B0
Electrical Characteristics
DC PARAMETERS(Continued)
(The following conditions apply to all the following parameters, unless otherwise specified.)
DC: +5V <= Vcc <= +15V
SYMBOL
PARAMETER
AFREQ
A Stable
Frequency
Et
Timing Error
Delta Et/
Delta Vcc
Timing Drift with
Supply
CONDITIONS
NOTES
2
PINNAME
MIN
45
MAX
UNIT
SUBGROUPS
51
KHz
1
Vcc = 5V
2
+2
%
1, 2,
3
Vcc = 15V, 1K<=RA<=100K, (Timing error
decreases with an increase in Vcc)
2
+2
%
1, 2,
3
5V <= Vcc <= 15V
2
0.2
%/V
1, 2,
3
AC PARAMETERS
(The following conditions apply to all the following parameters, unless otherwise specified.)
AC: +5V <= Vcc <= +15V
tR
tF
Rise Time
Fall Time
VTRIG = 5V
VTRIG = 5V
2
250
nS
9, 10
2
400
nS
11
2
250
nS
9, 10
2
400
nS
11
DC PARAMETERS: DRIFT VALUES
(The following conditions apply to all the following parameters, unless otherwise specified.)
DC: +5V <= Vcc <= +15V. "Delta not required on B-Level product. Deltas required for S-Level product ONLY
as specified on Internal Processing Instructions (IPI)".
Vco
Vol
Voh
Control Voltage
Output Voltage
Drop Low
Output Voltage
Drop High
Note 1:
Note 2:
Vcc = 5V, V2=V6=4V
-0.1
0.1
V
1
Vcc = 15V, V2=V6=12V
-0.1
0.1
V
1
Vcc = 15V, Isink = +10mA, V2=V6=15V
-50
50
mV
1
Vcc = 15V, Isink = +50mA, V2=V6=15V
-50
50
mV
1
Vcc = 15V, Isource = 85mA
-0.26
0.26
V
1
Guaranteed by tests at Vcc = 15V.
Guaranteed parameter , Not tested.
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MICROCIRCUIT DATA SHEET
MNLM555-X REV 0B0
Graphics and Diagrams
GRAPHICS#
DESCRIPTION
H08CRE
(blank)
J08ARL
CERDIP (J), 8 LEAD (P/P DWG)
See attached graphics following this page.
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