PANASONIC AN6914UBS

AN6914UBS
Industrial Surface Mounting Package Comparator
■ Overview
0.1±0.1
• Temperature cycle test conducted for all the products
• All the products inspected at Ta=25˚C and =100˚C to
assure the characteristics
• Operating temperature range: –40˚C to +100˚C
• Either of the following types of packing is selectable:
Embossed taping·····AN6914UBS-(E1)
Magazine·················AN6914UBS
• Quantity of packed ICs
AN6914UBS-(E1)
2000 pcs./reel
AN6914UBS
90 pcs./magazine
6
4
5
5.0±0.3
7
3
0.3
4.2±0.3
6.5±0.3
8-pin PANAFLAT Plastic Package (SOP008-P-0225A)
■ Block Diagram
VCC
VO
Vin
Vin
8
7
6
5
+
–
Ch.2
+
Ch.1
–
8
2
1.5±0.2
■ Features
1
0.15
0.65
0.6±0.3
1.27
0.4±0.25
Unit:mm
The AN6914UBS is available for automotive and industrial equipments which require high reliability through
an enhanced screening process.
1
2
3
4
VO
Vin
Vin
GND
■ Absolute Maximum Ratings (Ta=25˚)
Symbol
Rating
Supply voltage
Parameter
VCC
36
V
Commom-mode input voltage
VICM
V
Differential input voltage
VID
– 0.3 to +36 *1
36 *2
V1, V7
24
V
mW
Output applied voltage
Unit
V
Power dissipation
PD
360
Operating ambient temperature
Topr
–40 to +100
˚C
Storage temperature
Tstg
–55 to +125
˚C
*1 The common-mode input voltage is applied to the non-inverting input pin and inverting input pin simultaneously.
*2 Differential input corresponds to the potential difference between the non-inverting input pin and inverting input pin.
■ Electical Characteristics (VCC=5V)
Parameter
Input offset voltage
Symbol
VI
IIO
Input bias current
IBias
Voltage gain
GV
Common-mode input voltage width
VCM
Supply current
ICC
Output sink current
Output voltage low level
Output pin leak current
min *4
(offset)
Input offset current
Response time
Condition
tr
ISINK
VOL
IO (Leak)
typ *3
max *4
1
5
mV
50
nA
250
RL=15kΩ
200
0
RL=∞
0.6
RL=5.1kΩ
<1.5V
VREF=0V, VIN=1V, VO =
Unit
nA
V/mV
VCC–1.5
V
1.5
mA
µs
1.3
10
mA
VREF=0V, VIN=1V, ISINK=3mA
0.2
VREF=1V, VIN=0V, VO=5V
0.1
0.4
*3 Typical value:Ta=25˚C
*4 Maximum and minimum values:All the ICs are inspected at two conditional temperatures of Ta=25˚C and Ta=100˚C to
assure the characteristics.
V
nA
■ Characteristics Curve
ICC –VCC
IBias–Ta
1.6
VOL– ISINK
120
4.0
VCC=5V
RL= ∞
VCC=5V
3.5
Ta=–30˚C
1.0
0.8
Ta=25˚C
0.6
Ta=85˚C
0.4
100
Output Voltage VOL (V)
1.2
Input Bias Current IBias (nA)
Supply Current ICC (mA)
1.4
80
60
40
2.0
1.5
1.0
0.5
20
30
0
–40 –20
40
VCC=5V
ISINK=3mA
0.20
0.16
0.12
0.08
0.04
20
40
60
80 100 120
Input Voltage VIN (mV)
Output Voltage VO (V)
VOL–Ta
0
40
0
80 100 120
60
Ambient Temperature Ta (˚C)
0.24
0
–40 –20
20
0
Transfer Characteristic (1)
6
Overdrive
5
5mV
20mV
50mV
80mV
4
3
VCC=5V
5.1kΩ
VIN
–
2
VO
+
1
0
100
50
0
0
1
Ambient Temperature Ta (˚C)
2
3
4
Time t (µs)
ICC –Ta
1.5
Supply Current ICC (mA)
VCC=5V
1.0
0.5
–25
0
25
50
75
5
10
15
20
100
Ambient Temperature Ta (˚C)
25
30
Transfer Characteristic (2)
6
Overdrive
5mV
20mV
50mV
80mV
5
4
3
VCC=5V
5.1kΩ
VIN
–
2
+
125
150
VO
1
0
0
–50
–100
0
1
2
Time t (µs)
■ Characteristics Dispersion Charts
0
–50
0
Output Sink Current ISINK (mA)
Output Voltage VO (V)
10
Input Voltage VIN (mV)
0
Supply Voltage VCC (V)
Output Voltage VOL (V)
Ta=25˚C
–30˚C
85˚C
2.5
20
0.2
0
3.0
3
4
VI (offset) –Ta (CH–1)
VI (offset) –Ta (CH–2)
(mV)
5
VCC=5V
4
(offset)
3
2
Input Offset Voltage VI
Input Offset Voltage VI
(offset)
(mV)
5
1
0
–1
–2
–3
–4
–5
–50
–25
0
25
50
75
100
125
VCC=5V
4
3
2
1
0
–1
–2
–3
–4
–5
–50
150
–25
Ambient Temperature Ta (˚C)
0
25
50
75
100
IIO –Ta (CH–1)
50
VCC=5V
VCC=5V
40
Input Offset Voltage IIO (nA)
Input Offset Voltage I1O (nA)
40
30
20
10
0
–10
–20
–30
–40
30
20
10
0
–10
–20
–30
–40
–25
0
25
50
75
100
125
–50
–50
150
–25
Ambient Temperature Ta (˚C)
0
VOL–Ta (CH–1)
50
75
100
125
150
VOL–Ta (CH–2)
0.40
VCC=5V
ISINK=3mA
VCC=5V
ISINK=3mA
0.35
Output Voltage VOL (V)
0.35
Output Voltage VOL (V)
25
Ambient Temperature Ta (˚C)
0.40
0.30
0.25
0.20
0.15
0.10
0.05
0
–50
150
IIO–Ta (CH–2)
50
–50
–50
125
Ambient Temperature Ta (˚C)
0.30
0.25
0.20
0.15
0.10
0.05
–25
0
25
50
75
100
Ambient Temperature Ta (˚C)
125
150
0
–50
–25
0
25
50
75
100
Ambient Temperature Ta (˚C)
125
150
VOL–Ta (CH–1)
VOL–Ta (CH–2)
1.0
1.0
VCC=5V
ISINK=10mA
VCC=5V
ISINK=10mA
0.9
0.8
Output Voltage VOL (V)
Output Voltage VOL (V)
0.9
0.7
0.6
0.5
0.4
0.3
0.2
0.1
0.8
0.7
0.6
0.5
0.4
0.3
0.2
0.1
0
–50
–25
0
25
50
75
100
125
150
0
–50
–25
Ambient Temperature Ta (˚C)
0
25
50
75
100
125
150
Ambient Temperature Ta (˚C)
■ Reliability of AN6914UBS
1. Results of Reliability Test
Test item
High-temperature operation
Leaving under high temperature
Thermal shock
Temperature cycle
Test condition
Ta=125˚C
VCC=12V
No.of tested pieces
Total test time
No. of failures
150
16000
0
120
3600
0
Ta=125˚C
+150˚C
–65˚C
500 cycles
+125
– 40˚C
10000 cycles
160
0
50
0
2. Failure Rate (Refer to JIS-C-5003)
Assuming that the total test time = T(No. of test pieces ×
test time) and the No. of failures = r, the failure rate can
be calculated by obtaining r/T and multiplying it by the
numerical values commensurate with the reliability level
and the number of defective ICs.
If the failure rate (FR) is calculated from the results of
the above high temperature test of the AN6914UBS,
assuming that the reliability level is 60%;
T=150 × 16000=2.4 × 106 (hours)
r=0 comes to 0.92 at the level of 60%.
FR=0.92/2.4 × 106=3.8 × 10–7=380Fit
Assuming that activation energy is 1.0 eV, FR will be
38 Fit at worst (Ta=100˚C) because an acceleration
factor differs by about 1 digit between at 125˚C and
100˚C.
Screening Regulations
Flow Chart
Assembly
Assembly Finish
Temperature Cycle Test
Screening
High Temperature
Characteristics Inspection
Normal Temperature
Characteristics Inspection
Shipping
Inspection
Condition
Shipping Inspection
150˚C=30min.,
–50˚C=30min.,
Move=5min.,
Frequency=5times
Ta=100˚C
Ta=25˚C