DATA SHEET
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Single Bit Uni-Directional
Translator
FXLP34
Description
The FXLP34 is a single translator with two separate supply
voltages: VCC1 for input translation voltages and VCC for output
translation voltages. The FXLP34 is part of onsemi’s Ultra Low
Power (ULP) series of products. This device operates with VCC
values from 1.0 V to 3.6 V, and is intended for use in portable
applications that require ultra low power consumption.
The internal circuit is composed of a minimum of buffer stages, to
enable ultra low dynamic power.
The FXLP34 is uniquely designed for optimized power and speed,
and is fabricated with an advanced CMOS technology to achieve
high−speed operation while maintaining low CMOS power
dissipation.
•
•
•
•
•
•
1.0 V to 3.6 V VCC Supply Voltage
Converts Any Voltage (1.0 V to 3.6 V) to (1.0 V to 3.6 V)
4.6V Tolerant Inputs and Outputs
tPD:
♦ 4 ns Typical for 3.0 V to 3.6 V VCC
Power−Off High Impedance Inputs and Outputs
Static Drive (IOH/IOL):
♦ ±2.6 mA at 3.00 V VCC
Uses Proprietary Quiet Series Noise / EMI Reduction Circuitry
Ultra−Small MicroPakt Leadless Packages
Ultra−Low Dynamic Power
These are Pb−Free Devices
© Semiconductor Components Industries, LLC, 2006
May, 2022 − Rev. 2
SIP6 1.45X1.0
CASE 127EB
X3M
UDFN6
1.0X1.0, 0.35P
CASE 517DP
X3M
SC−88A (SC−70
5 Lead), 1.25x2
CASE 419AC−01
X34M
X3, X34 = Device Code
M
= Assembly Operation Month
ORDERING INFORMATION
Features
•
•
•
•
MARKING
DIAGRAM
1
See detailed ordering and shipping information on page 9 of
this data sheet.
Publication Order Number:
FXLP34/D
FXLP34
PIN CONFIGURATION
VCC1
1
A
2
GND
3
5
4
VCC
Y
Figure 1. SC70 (Top View)
VCC1
1
1 VCC
A
2
2 NC
GND
3
3 Y
Figure 2. MicroPak (Top Through View)
PIN DEFINITIONS
Pin # SC70
Pin # MicroPak
Name
1
1
VCC1
2
2
A
3
3
GND
Ground
4
4
Y
Output
5
NC
No Connect
6
VCC
Output Translation Voltage
5
Description
Input Translation Voltage
Input
TRUTH TABLE
Input
Outputs
A
Y
L
L
H
H
H = Logic Level HIGH
L = Logic Level Low
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2
FXLP34
ABSOLUTE MAXIMUM RATINGS
Symbol
VCC, VCC1
VIN
VOUT
Min
Max
Unit
Supply Voltage
Parameter
−0.5
+4.6
V
DC Input Voltage
−0.5
+4.6
V
HIGH or LOW State (Note 1)
−0.5
VCC + 0.5 V
V
VCC = 0 V
−0.5
+4.6
−50
mA
mA
DC Output Voltage
IIK
DC Input Diode Current
VIN < 0
−
IOK
DC Output Diode Current
VOUT < 0 V
−
−50
VOUT > VCC
−
+50
DC Output Source/Sink Current
−
±50
mA
DC VCC or Ground Current per Supply Pin
−
±100
mA
−65
150
°C
SC70−6
−
180
mW
MicroPakt−6
−
130
MicroPak2t−6
−
120
Human Body Model, JEDEC:JESD22−A114
−
4000
Charge Device Model, JEDEC:JESD22−C101
−
2000
IOH/IOL
ICC or IGND
TSTG
Storage Temperature Range
PD
Power Dissipation at +85°C
ESD
V
Stresses exceeding those listed in the Maximum Ratings table may damage the device. If any of these limits are exceeded, device functionality
should not be assumed, damage may occur and reliability may be affected.
1. IO Absolute Maximum Rating must be observed.
RECOMMENDED OPERATING CONDITIONS
Symbol
VCC, VCC1
VIN
VOUT
IOH/IOL
Parameter
Conditions
Min
Max
Unit
1.0
3.6
V
0
3.6
V
HIGH or LOW State
0
VCC
V
VCC = 0 V
0
3.6
VCC = 3.0 to 3.6 V
−
±2.6
VCC = 2.3 to 2.7 V
−
±2.1
VCC = 1.65 to 1.95 V
−
±1.5
VCC = 1.40 to 1.60 V
−
±1.0
VCC = 1.10 to 1.30 V
−
±0.5
VCC = 1.0 V
−
±20
Supply Voltage
Input Voltage
Output Voltage
Output Current in IOH/IOL
TA
Operating Temperature, Free Air
qJA
Thermal Resistance
mA
mA
−40
+85
°C
SC70−6
−
425
°C/W
MicroPak−6
−
500
MicroPak2−6
−
560
Functional operation above the stresses listed in the Recommended Operating Ranges is not implied. Extended exposure to stresses beyond
the Recommended Operating Ranges limits may affect device reliability.
2. Unused inputs must be held HIGH or LOW. They may not float.
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3
FXLP34
ELECTRICAL CHARACTERISTIICS
TA = +25°C
Symbol Parameter
VIH
VIL
VOH
VOL
Condition
HIGH
Level
Input
(VCC1)
LOW
Level
Input
(VCC1)
HIGH
Level
Output
(VCC)
LOW
Level
Output
(VCC)
VCC (V)
VCC1 (V)
1.0 to 3.6
1.0
0.65 x VCCI
−
0.65 x VCCI
−
1.10 ≤ VCC1 ≤ 1.30 0.65 x VCCI
−
0.65 x VCCI
−
1.40 ≤ VCC1 ≤ 1.60 0.65 x VCCI
−
0.65 x VCCI
−
1.65 ≤ VCC1 ≤ 1.95 0.65 x VCCI
−
0.65 x VCCI
−
2.30 ≤ VCC1 ≤ 2.70
1.6
−
1.6
−
3.00 ≤ VCC1 ≤ 3.60
2.1
−
2.1
−
1.0
−
0.35 x VCCI
−
0.35 x VCCI
1.10 ≤ VCC1 ≤ 1.30
−
0.35 x VCCI
−
0.35 x VCCI
1.40 ≤ VCC1 ≤ 1.60
−
0.35 x VCCI
−
0.35 x VCCI
1.65 ≤ VCC1 ≤ 1.95
−
0.35 x VCCI
−
0.35 x VCCI
2.30 ≤ VCC1 ≤ 2.70
−
0.7
−
0.7
3.00 ≤ VCC1 ≤ 3.60
−
0.9
−
0.9
1.0 to 3.6
VCC − 0.1
−
VCC − 0.1
−
1.10 ≤ VCC1 ≤ 1.30
VCC − 0.1
−
VCC − 0.1
−
1.40 ≤ VCC1 ≤ 1.60
VCC − 0.1
−
VCC − 0.1
−
1.65 ≤ VCC1 ≤ 1.95
VCC − 0.1
−
VCC − 0.1
−
2.30 ≤ VCC1 ≤ 2.70
VCC − 0.1
−
VCC − 0.1
−
3.00 ≤ VCC1 ≤ 3.60
VCC − 0.1
−
VCC − 0.1
−
0.75 x VCC
−
0.70 x VCC
−
1.0 to 3.6
IOH = −20 mA
TA = −40 to 85°C
Min
1.0
Max
Min
Max
Unit
V
IOH = −0.5 mA
1.10 ≤ VCC1 ≤ 1.30
IOH = −1.0 mA
1.40 ≤ VCC1 ≤ 1.60
1.07
−
0.99
−
IOH = −1.5 mA
1.65 ≤ VCC1 ≤ 1.95
1.24
−
1.22
−
IOH = −2.1 mA
2.30 ≤ VCC1 ≤ 2.70
1.95
−
1.87
−
IOH = −2.6 mA
3.00 ≤ VCC1 ≤ 3.60
2.61
−
2.55
−
−
0.1
−
0.1
1.10 ≤ VCC1 ≤ 1.30
−
0.1
−
0.1
1.40 ≤ VCC1 ≤ 1.60
−
0.1
−
0.1
1.65 ≤ VCC1 ≤ 1.95
−
0.1
−
0.1
2.30 ≤ VCC1 ≤ 2.70
−
0.1
−
0.1
−
0.30 x VCC
−
0.30 x VCC
IOL = 20 mA
IOL = 0.5 mA
1.0
1.10 ≤ VCC1 ≤ 1.30
1.0 to 3.6
1.0 to 3.6
1.0 to 3.6
V
V
V
IOL = 1.0 mA
1.40 ≤ VCC1 ≤ 1.60
−
0.31
−
0.37
IOL = 1.5 mA
1.65 ≤ VCC1 ≤ 1.95
−
0.31
−
0.35
IOL = 2.1 mA
2.30 ≤ VCC1 ≤ 2.70
−
0.31
−
0.33
IOL = 2.6 mA
3.00 ≤ VCC1 ≤ 3.60
−
0.31
−
0.33
1.0 to 3.6
−
±0.1
−
±1.0
mA
IIN
Input
Leakage
Current
0 ≤ VIN ≤ 3.60
IOFF
Power Off
Leakage
Current
0 ≤ (VIN, VO)
≤ 3.60
0
0
−
1.0
−
5.0
mA
ICC
Quiescent
Supply
Current
VIN = VCC or
GND
1.0 to 3.6
1.0 to 3.6
−
0.9
−
5.0
mA
Product parametric performance is indicated in the Electrical Characteristics for the listed test conditions, unless otherwise noted. Product
performance may not be indicated by the Electrical Characteristics if operated under different conditions.
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4
FXLP34
AC ELECTRICAL CHARACTERISTIICS
TA = +25°C
Symbol
tPHL,
tPLH
tPHL,
tPLH
tPHL,
tPLH
tPHL,
tPLH
tPHL,
tPLH
tPHL,
tPLH
Parameter
Propagation Delay
Output Translation
VCC (V) = 1.0
Propagation Delay
Output Translation
VCC (V) = 1.2
Propagation Delay
Output Translation
VCC (V) = 1.5
Propagation Delay
Output Translation
VCC (V) = 1.8
Propagation Delay
Output Translation
VCC (V) = 2.5
Propagation Delay
Output Translation
VCC (V) = 3.3
Condition
CL = 10 pF,
RL = 1 MW
CL = 10 pF,
RL = 1 MW
CL = 10 pF,
RL = 1 MW
CL = 10 pF,
RL = 1 MW
CL = 10 pF,
RL = 1 MW
CL = 10 pF,
RL = 1 MW
TA = −40 to 85°C
VCC (V)
Min
Typ
Max
Min
Max
Unit
Figure
1.0
−
26.0
−
−
−
ns
1.10 to 1.30
15.0
25.0
38.1
12.0
43.3
Figure 3,
Figure 4
1.40 to 1.60
14.0
24.0
36.7
11.0
42.0
1.65 to 1.95
13.0
23.0
36.0
10.0
41.4
2.30 to 2.70
12.0
22.0
35.5
9.0
40.9
3.00 to 3.60
11.0
21.0
35.5
8.0
40.6
1.0
−
18.0
−
−
−
ns
1.10 to 1.30
8.0
15.0
23.2
6.0
41.0
Figure 3,
Figure 4
1.40 to 1.60
7.5
14.0
21.7
5.5
39.1
1.65 to 1.95
7.0
13.0
20.9
5.0
32.3
2.30 to 2.70
6.5
12.0
20.4
4.5
29.6
3.00 to 3.60
6.0
12.0
20.2
4.0
29.4
ns
Figure 3,
Figure 4
ns
Figure 3,
Figure 4
ns
Figure 3,
Figure 4
ns
Figure 3,
Figure 4
1.0
−
14.0
−
−
−
1.10 to 1.30
5.0
11.0
16.3
4.0
20.6
1.40 to 1.60
4.8
10.0
14.8
3.5
19.3
1.65 to 1.95
4.5
9.0
14.1
3.0
18.7
2.30 to 2.70
4.0
8.0
13.5
2.5
18.0
3.00 to 3.60
3.5
8.0
13.3
2.0
17.8
1.0
−
13.0
−
−
−
1.10 to 1.30
4.0
9.0
13.5
3.0
17.5
1.40 to 1.60
3.5
8.0
12.0
2.5
16.3
1.65 to 1.95
3.0
7.0
11.3
2.0
15.6
2.30 to 2.70
2.5
6.0
10.7
1.5
15.0
3.00 to 3.60
2.5
6.0
10.5
1.0
14.7
1.0
−
12.0
−
−
−
1.10 to 1.30
3.0
7.0
10.9
2.5
14.3
1.40 to 1.60
2.5
6.0
9.4
2.0
13.1
1.65 to 1.95
2.0
5.0
8.6
1.5
11.4
2.30 to 2.70
1.5
4.0
8.0
1.0
10.8
3.00 to 3.60
1.5
4.0
7.8
1.0
10.5
1.0
−
11.0
−
−
−
1.10 to 1.30
3.0
6.0
10.1
2.0
13.8
1.40 to 1.60
2.5
5.0
8.2
1.5
10.5
1.65 to 1.95
2.0
4.0
7.4
1.0
9.9
2.30 to 2.70
1.0
3.0
6.8
1.0
9.2
3.00 to 3.60
1.0
3.0
6.6
1.0
9.0
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5
FXLP34
AC ELECTRICAL CHARACTERISTIICS (continued)
TA = +25°C
Symbol
tPHL,
tPLH
tPHL,
tPLH
tPHL,
tPLH
tPHL,
tPLH
tPHL,
tPLH
tPHL,
tPLH
Parameter
Propagation Delay
Output Translation
VCC (V) = 1.0
Propagation Delay
Output Translation
VCC (V) = 1.2
Propagation Delay
Output Translation
VCC (V) = 1.5
Propagation Delay
Output Translation
VCC (V) = 1.8
Propagation Delay
Output Translation
VCC (V) = 2.5
Propagation Delay
Output Translation
VCC (V) = 3.3
Condition
CL = 15 pF,
RL = 1 MW
CL = 15 pF,
RL = 1 MW
CL = 15 pF,
RL = 1 MW
CL = 15 pF,
RL = 1 MW
CL = 15 pF,
RL = 1 MW
CL = 15 pF,
RL = 1 MW
TA = −40 to 85°C
VCC (V)
Min
Typ
Max
Min
Max
Unit
Figure
1.0
−
28.0
−
−
−
ns
1.10 to 1.30
16.0
27.0
43.0
12.0
44.8
Figure 3,
Figure 4
1.40 to 1.60
15.0
26.0
41.6
11.0
43.6
1.65 to 1.95
14.0
25.0
40.9
10.0
47.9
2.30 to 2.70
13.0
24.0
40.5
9.0
47.5
3.00 to 3.60
12.0
23.0
40.4
8.0
41.4
1.0
−
19.0
−
−
−
ns
1.10 to 1.30
9.0
16.0
24.6
8.0
43.1
Figure 3,
Figure 4
1.40 to 1.60
8.5
15.0
23.1
7.5
42.2
1.65 to 1.95
8.0
14.0
22.4
7.0
31.4
2.30 to 2.70
7.5
13.0
21.8
6.5
30.7
3.00 to 3.60
7.0
13.0
21.6
6.0
30.5
ns
Figure 3,
Figure 4
ns
Figure 3,
Figure 4
ns
Figure 3,
Figure 4
ns
Figure 3,
Figure 4
1.0
−
15.0
−
−
−
1.10 to 1.30
6.0
12.0
17.2
5.5
21.5
1.40 to 1.60
5.8
11.0
15.7
5.0
20.3
1.65 to 1.95
5.5
10.0
14.9
4.5
19.6
2.30 to 2.70
5.0
9.0
14.3
4.0
18.9
3.00 to 3.60
4.5
.0
14.2
3.5
18.7
1.0
−
14.0
−
−
−
1.10 to 1.30
5.0
8.0
14.2
5.5
18.2
1.40 to 1.60
4.5
7.0
12.7
4.0
17.0
1.65 to 1.95
4.0
6.0
11.9
3.5
16.3
2.30 to 2.70
3.5
5.0
11.3
3.0
15.7
3.00 to 3.60
3.5
5.0
11.2
2.5
14.4
1.0
−
12.0
−
−
−
1.10 to 1.30
4.0
7.0
11.3
3.5
14.9
1.40 to 1.60
3.5
6.0
9.8
3.0
13.6
1.65 to 1.95
3.0
5.0
9.1
2.5
12.0
2.30 to 2.70
2.5
4.0
8.5
2.0
11.3
3.00 to 3.60
2.5
4.0
8.3
2.0
11.1
1.0
−
11.0
−
−
−
1.10 to 1.30
3.0
6.0
10.5
2.0
14.2
1.40 to 1.60
2.5
5.0
8.6
1.5
11.0
1.65 to 1.95
2.0
4.0
7.8
1.0
10.3
2.30 to 2.70
1.5
3.0
7.2
1.0
9.7
3.00 to 3.60
1.5
3.0
7.0
1.0
9.4
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FXLP34
AC ELECTRICAL CHARACTERISTIICS (continued)
TA = +25°C
Symbol
tPHL,
tPLH
tPHL,
tPLH
tPHL,
tPLH
tPHL,
tPLH
tPHL,
tPLH
tPHL,
tPLH
Parameter
Propagation Delay
Output Translation
VCC (V) = 1.0
Propagation Delay
Output Translation
VCC (V) = 1.2
Propagation Delay
Output Translation
VCC (V) = 1.5
Propagation Delay
Output Translation
VCC (V) = 1.8
Propagation Delay
Output Translation
VCC (V) = 2.5
Propagation Delay
Output Translation
VCC (V) = 3.3
Condition
CL = 30 pF,
RL = 1 MW
CL = 30 pF,
RL = 1 MW
CL = 30 pF,
RL = 1 MW
CL = 30 pF,
RL = 1 MW
CL = 30 pF,
RL = 1 MW
CL = 30 pF,
RL = 1 MW
TA = −40 to 85°C
VCC (V)
Min
Typ
Max
Min
Max
Unit
Figure
1.0
−
34.0
−
−
−
ns
1.10 to 1.30
19.0
32.0
48.6
15.0
55.5
Figure 3,
Figure 4
1.40 to 1.60
18.0
31.0
47.1
14.0
52.3
1.65 to 1.95
17.0
30.0
46.4
13.0
50.6
2.30 to 2.70
16.0
29.0
45.9
12.0
49.2
3.00 to 3.60
15.0
28.0
45.8
10.0
49.1
1.0
−
22.0
−
−
−
ns
1.10 to 1.30
11.0
19.0
29.0
10.0
46.5
Figure 3,
Figure 4
1.40 to 1.60
10.0
18.0
27.5
9.0
42.6
1.65 to 1.95
9.0
17.0
26.7
8.0
36.7
2.30 to 2.70
8.5
16.0
26.1
7.0
36.0
3.00 to 3.60
8.0
16.0
26.0
6.0
35.9
ns
Figure 3,
Figure 4
ns
Figure 3,
Figure 4
ns
Figure 3,
Figure 4
ns
Figure 3,
Figure 4
1.0
−
16.0
−
−
−
1.10 to 1.30
6.0
13.0
19.8
5.5
25.3
1.40 to 1.60
5.8
12.0
18.3
5.0
23.0
1.65 to 1.95
5.5
11.0
17.6
4.5
22.4
2.30 to 2.70
5.0
10.0
17.0
4.0
21.7
3.00 to 3.60
4.5
9.0
16.8
3.5
21.5
1.0
−
15.0
−
−
−
1.10 to 1.30
5.0
11.0
16.2
5.5
20.4
1.40 to 1.60
4.5
10.0
14.7
4.0
19.2
1.65 to 1.95
4.0
9.0
13.9
3.5
18.5
2.30 to 2.70
3.5
8.0
13.3
3.0
17.9
3.00 to 3.60
3.5
8.0
13.1
2.5
17.6
1.0
−
13.0
−
−
−
1.10 to 1.30
4.0
8.0
12.7
3.5
15.9
1.40 to 1.60
3.5
7.0
11.2
3.0
14.3
1.65 to 1.95
3.0
6.0
10.5
2.5
13.6
2.30 to 2.70
2.5
5.0
9.9
2.0
12.8
3.00 to 3.60
2.5
5.0
9.7
2.0
12.5
1.0
−
12.0
−
−
−
1.10 to 1.30
3.0
8.0
11.7
2.0
15.0
1.40 to 1.60
2.5
7.0
9.8
1.5
12.2
1.65 to 1.95
2.0
6.0
8.9
1.0
11.5
2.30 to 2.70
1.5
5.0
8.3
1.0
10.7
3.00 to 3.60
1.5
5.0
8.1
1.0
10.4
CAPACITANCE
Symbol
Parameter
CIN
Input Capacitance
CI/O
Input/Output Capacitance
CPD
Power Dissipation Capacitance
Conditions
VI = 0 V or VCC1, f = 10 MHz, VCC / VCC1 = 3.6 V
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7
VCC /
VCC1 (V)
1.0 to 3.60
TA = +25°C
Typ
Unit
2
pF
4
pF
8
pF
FXLP34
Translator Power−up Sequence Recommendations
input VCC1 are powered at the same time. The output VCC
can then be powered to the target voltage level to which the
device will translate. The output pin(s) then translate to logic
levels dictated by the output VCC levels.
Upon completion of these steps, the device can be
configured for the desired operation. Following these steps
helps prevent possible damage to the translator device as
well as other system components
To ensure that the system does not experience
unnecessary ICC current draw, bus contention, or
oscillations during power−up; adhere to the following
guidelines. This device is designed with the output pin(s)
supplied by VCC and the input pin(s) supplied by VCC1. The
first recommendation is to begin by powering up the input
side of the device with VCC1. The Input pin(s) should be
ramped with or ahead of VCC1 or held LOW. This guards
against bus contentions and oscillations as all inputs and the
AC Loadings and Waveforms
Figure 3. AC Test Circuit
Figure 4. Waveform for Inverting and Non-Inverting Functions
Table 1. AC LOAD TABLE
VCC
Symbol
3.3 V +0.3 V
2.5 V +0.2 V
1.8 V +0.15 V
1.5 V +0.10 V
1.2 V +0.10 V
1.0 V
Vmi
1.5V
VCC1/2
VCC1/2
VCC1/2
VCC1/2
VCC1/2
Vmo
1.5V
VCC/2
VCC/2
VCC/2
VCC/2
VCC/2
www.onsemi.com
8
FXLP34
ORDERING INFORMATION
Top Mark
Package Type
Shipping†
FXLP34P5X
X34
5−Lead SC70, EIAJ SC−88a, 1.25 mm Wide
(Pb−Free)
3000 / Tape & Reel
FXLP34L6X
X3
SIP6, 6−Lead MicroPak, 1.00 mm Wide
(Pb−Free)
5000 / Tape & Reel
FXLP34FHX
X3
UDFN6, 6−Lead, MicroPak2, 1x1 mm Body, .35 mm
Pitch
(Pb−Free)
5000 / Tape & Reel
Part Number
†For information on tape and reel specifications, including part orientation and tape sizes, please refer to our Tape and Reel Packaging
Specifications Brochure, BRD8011/D.
MicroPak and MicroPak2 are trademarks of Semiconductor Components Industries, LLC dba “onsemi” or its affiliates and/or subsidiaries in the United
States and/or other countries.
www.onsemi.com
9
MECHANICAL CASE OUTLINE
PACKAGE DIMENSIONS
SIP6 1.45X1.0
CASE 127EB
ISSUE O
DOCUMENT NUMBER:
DESCRIPTION:
98AON13590G
SIP6 1.45X1.0
DATE 31 AUG 2016
Electronic versions are uncontrolled except when accessed directly from the Document Repository.
Printed versions are uncontrolled except when stamped “CONTROLLED COPY” in red.
PAGE 1 OF 1
ON Semiconductor and
are trademarks of Semiconductor Components Industries, LLC dba ON Semiconductor or its subsidiaries in the United States and/or other countries.
ON Semiconductor reserves the right to make changes without further notice to any products herein. ON Semiconductor makes no warranty, representation or guarantee regarding
the suitability of its products for any particular purpose, nor does ON Semiconductor assume any liability arising out of the application or use of any product or circuit, and specifically
disclaims any and all liability, including without limitation special, consequential or incidental damages. ON Semiconductor does not convey any license under its patent rights nor the
rights of others.
© Semiconductor Components Industries, LLC, 2019
www.onsemi.com
MECHANICAL CASE OUTLINE
PACKAGE DIMENSIONS
SC−88A (SC−70 5 Lead), 1.25x2
CASE 419AC−01
ISSUE A
D
e
e
E1 E
DATE 29 JUN 2010
SYMBOL
MIN
A
0.80
MAX
1.10
A1
0.00
0.10
A2
0.80
1.00
b
0.15
0.30
0.18
c
0.10
D
1.80
2.00
2.20
E
1.80
2.10
2.40
E1
1.15
1.25
1.35
0.65 BSC
e
L
TOP VIEW
NOM
0.26
0.36
L1
0.42 REF
L2
0.15 BSC
0.46
θ
0º
8º
θ1
4º
10º
q1
A2 A
q
b
q1
L
L1
A1
SIDE VIEW
c
L2
END VIEW
Notes:
(1) All dimensions are in millimeters. Angles in degrees.
(2) Complies with JEDEC MO-203.
DOCUMENT NUMBER:
DESCRIPTION:
98AON34260E
Electronic versions are uncontrolled except when accessed directly from the Document Repository.
Printed versions are uncontrolled except when stamped “CONTROLLED COPY” in red.
SC−88A (SC−70 5 LEAD), 1.25X2
PAGE 1 OF 1
ON Semiconductor and
are trademarks of Semiconductor Components Industries, LLC dba ON Semiconductor or its subsidiaries in the United States and/or other countries.
ON Semiconductor reserves the right to make changes without further notice to any products herein. ON Semiconductor makes no warranty, representation or guarantee regarding
the suitability of its products for any particular purpose, nor does ON Semiconductor assume any liability arising out of the application or use of any product or circuit, and specifically
disclaims any and all liability, including without limitation special, consequential or incidental damages. ON Semiconductor does not convey any license under its patent rights nor the
rights of others.
© Semiconductor Components Industries, LLC, 2019
www.onsemi.com
MECHANICAL CASE OUTLINE
PACKAGE DIMENSIONS
UDFN6 1.0X1.0, 0.35P
CASE 517DP
ISSUE O
DOCUMENT NUMBER:
DESCRIPTION:
98AON13593G
UDFN6 1.0X1.0, 0.35P
DATE 31 AUG 2016
Electronic versions are uncontrolled except when accessed directly from the Document Repository.
Printed versions are uncontrolled except when stamped “CONTROLLED COPY” in red.
PAGE 1 OF 1
ON Semiconductor and
are trademarks of Semiconductor Components Industries, LLC dba ON Semiconductor or its subsidiaries in the United States and/or other countries.
ON Semiconductor reserves the right to make changes without further notice to any products herein. ON Semiconductor makes no warranty, representation or guarantee regarding
the suitability of its products for any particular purpose, nor does ON Semiconductor assume any liability arising out of the application or use of any product or circuit, and specifically
disclaims any and all liability, including without limitation special, consequential or incidental damages. ON Semiconductor does not convey any license under its patent rights nor the
rights of others.
© Semiconductor Components Industries, LLC, 2019
www.onsemi.com
onsemi,
, and other names, marks, and brands are registered and/or common law trademarks of Semiconductor Components Industries, LLC dba “onsemi” or its affiliates
and/or subsidiaries in the United States and/or other countries. onsemi owns the rights to a number of patents, trademarks, copyrights, trade secrets, and other intellectual property.
A listing of onsemi’s product/patent coverage may be accessed at www.onsemi.com/site/pdf/Patent−Marking.pdf. onsemi reserves the right to make changes at any time to any
products or information herein, without notice. The information herein is provided “as−is” and onsemi makes no warranty, representation or guarantee regarding the accuracy of the
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vary over time. All operating parameters, including “Typicals” must be validated for each customer application by customer’s technical experts. onsemi does not convey any license
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