XC25BS8Series - Electronic Datasheets

XC25BS8Series - Electronic Datasheets
XC25BS8 Series
ETR15006-008
Ultra Small PLL Clock Generator ICs with Built-In Divider/Multiplier Circuits
GENERAL DESCRIPTION
The XC25BS8 series is an ultra small PLL clock generator IC which can generate a high multiplier output up to 4095 from an input frequency as
low as 8kHz.
The series includes a divider circuit, phase/frequency comparator, charge pump, and VCO so it is possible to configure a fully
operational circuit with a few external components like one low-pass filter capacitor. The Input divider ratio (M) can be selected from a range of 1
to 2047, the output divider ratio (N) can be selected from a range of 1 to 4095 and they are set internally by using laser timing technologies.
Output frequency (fQ0) is equal to input clock frequency (fCLKin) multiplied by N/M. Output frequency range is 1MHz to 100MHz. Reference clock
from 8kHz to 36MHz can be input as the input clock. The IC stops operation and current drain is suppressed when a low level signal is input to the
CE pin which greatly reduces current consumption and produces a high impedance output.
The setting of the input divider ratio (M), output divider ratio (N), and charge pump current (Ip) are factory fixed semi-custom. Please advise your
Torex sales representative of your particular input/output frequency and supply voltage specifications so that we can see if we will be able to
support your requirements. The series is available in small SOT-26W and USP-6C.
APPLICATIONS
Clock for controlling a Imaging dot (LCD)
DSC (Digital still camera)
DVC (Digital video camera)
PND (Car navigation system)
UMPC (Ultra Mobile Personal Computer)
SSD (Solid State Disk)
Digital Photo Frame
Microcomputer and HDD drives
Cordless phones & Wireless communication
equipment
Various system clocks
TYPICAL APPLICATION CIRCUIT
FEATURES
Input Frequency Range
Output Frequency Range
Output Divider (N) Range
Input Divider (M) Range
Operating Voltage Range
Low Power Consumption
Small Packages
: 8kHz ~ 36MHz (*1)
: 1MHz ~ 100MHz
(fQ0=fCLKin × N/M) (*1)
: 1 ~ 4095 (*1)
: 1 ~ 2047(*1)
: 2.50V ~ 5.50V (*1)
: 10 A MAX. when stand-by (*2)
: SOT-26W, USP-6C
*1: The series are semi-custom products. Specifications for each
product are limited within the above range. The input frequency
range is set within ±5
of customer’s designated typical frequency.
Please note that setting of your some requirements may not be
possible due to the specification limits of this series.
*2: When the IC is in stand-by mode, the output becomes high impedance
and the IC stops operation.
TYPICAL PERFORMANCE
CHARACTERISTICS
PLL Output signal jitter 2 (tJ2) (synchronous to an input signal)
XC25BS8001xx (610 multiplier, input 15kHz (TYP.))
*1
Input Signal
Output jitter
tJ2=20(ns)
Output Signal
*1: CIN (by-pass capacitor, 0.1 F) and C1 ( LPF capacitor, 0.1
F) should be connected as close as possible to the IC. Please
refer to the pattern reference layout schematics on page 8 for
details.
1/16
XC25BS8Series
PIN CONFIGURATION
Q0
VSS
CE
VDD
6
1 Q0
LPF 5
2 VSS
CLKin 4
VDD
LPF
* The dissipation pad (TAB) of the
bottom view of the USP-6C package
should be connected to the VSS (No. 2)
pin.
3 CE
CLKin
SOT-26W
(TOP VIEW)
USP-6C
(BOTTOM VIEW)
PIN ASSIGNEMNT
PIN NUMBER
SOT-26W
USP-6C
6
5
4
3
2
1
1
2
3
4
5
6
PIN NAME
FUNCTIONS
Q0
VSS
CE
CLKin
LPF
VDD
Clock Output
Ground
Stand-by Control
Reference Clock Signal Input
Device connection for Low Pass Filter
Power Input
FUNCTION LIST
2/16
CE
'H''
'L'' or OPEN
*H: High level input
Q0
Signal Output
High Impedance
L: Low level input
stand-by mode
XC25BS8
Series
PRODUCT CLASSIFICATION
Ordering Information
XC25BS8
DESIGNATOR
-
(*1)
(*1)
ITEM
SYMBOL
DESCRIPTION
Product Number
001~
Serial number based on internal standards
e.g. product number 001
=001
Packages(Order Unit)
MR
MR-G
ER
ER-G
SOT-26W(3,000/Reel)
SOT-26W(3,000/Reel)
USP-6C(3,000/Reel)
USP-6C(3,000/Reel)
The “-G” suffix denotes Halogen and Antimony free as well as being fully RoHS compliant.
BLOCK DIAGRAM
Counter
Phase
Detector
Counter
C1 Low Pass Filter Ceramic Capacitor
Please set as an external components between LPF Pin and VSS
Recommended components (1608 Type)
C1 0.1
F ---- Taiyo yuden EMK107BJ104KA
ABSOLUTE MAXIMUM RATINGS
Ta=25
PARAMETER
SYMBOL
Supply Voltage
VDD
VSS - 0.3
RATINGS
VSS + 7.0
UNITS
V
CLKin Pin Input Voltage
VCK
VSS - 0.3
VDD + 0.3
V
CE Pin Input Voltage
VCE
VSS - 0.3
VDD + 0.3
V
Q0 Pin Output Voltage
VQ0
VSS - 0.3
VDD + 0.3
V
Q0 Pin Output Current
IQ0
Power Dissipation
SOT-26W
USP-6C
± 50
mA
250
mW
120
mW
Pd
Operating Ambient Temperature
Topr
-40
+85
Storage Temperature
Tstg
-55
+125
3/16
XC25BS8Series
SELECTION GUIDE
*1: The table below introduces standard products. Please select with seeing the combination of input frequencies and multiplications.
The test condition: VDD=3.3V±10%
*2: For other input frequency and multiplication, please ask your Torex sales contacts.
Input Frequency
Multiplication
64
128
192
256
384
512
768
Synchronization
jitter
/ Output Period ( )
Product Series
MIN
MAX
Synchronization
jitter
32kHz
192kHz
36ns
10%
XC25BS8044
32kHz
192kHz
32ns
18%
XC25BS8027
32kHz
96kHz
24ns
14%
XC25BS8028
32kHz
48kHz
20ns
11%
XC25BS8057
32kHz
192kHz
30ns
25%
XC25BS8030
32kHz
96kHz
20ns
17%
XC25BS8031
32kHz
48kHz
16ns
14%
XC25BS8058
32kHz
192kHz
24ns
27%
XC25BS8033
32kHz
96kHz
22ns
25%
XC25BS8026
32kHz
48kHz
18ns
20%
XC25BS8025
32kHz
192kHz
21ns
36%
XC25BS8035
32kHz
96kHz
20ns
34%
XC25BS8036
32kHz
48kHz
18ns
30%
XC25BS8037
32kHz
96kHz
18ns
41%
XC25BS8039
32kHz
48kHz
16ns
36%
XC25BS8040
32kHz
96kHz
16ns
54%
XC25BS8042
32kHz
48kHz
14ns
47%
XC25BS8043
Amount of Jitter
Synchronization
/ Output Period ( )
Product Series
* Synchronization jitters are tested at fCLKIN=44.1kHz.
Input Frequency
Multiplication
MIN
MAX
Amount of Jitter
Synchronization
64
8kHz
16kHz
160ns
8%
XC25BS8045
128
8kHz
16kHz
140ns
14%
XC25BS8029
192
8kHz
16kHz
110ns
17%
XC25BS8032
256
8kHz
16kHz
100ns
20%
XC25BS8034
384
8kHz
16kHz
96ns
29%
XC25BS8038
512
8kHz
16kHz
52ns
21%
XC25BS8041
768
8kHz
16kHz
48ns
29%
XC25BS8046
Amount of Jitter
Synchronization
/ Output Period ( )
Product Series
8%
XC25BS8047
* Synchronization jitters are tested at fCLKIN=8kH.
Input Frequency
MIN
MAX
Amount of Jitter
Synchronization
1
8MHz
74MHz
7ns
2
6MHz
37MHz
6ns
11%
XC25BS8048
3
2MHz
24MHz
12ns
11%
XC25BS8049
4
2MHz
18MHz
7ns
8%
XC25BS8050
5
2MHz
14MHz
8ns
12%
XC25BS8051
6
2MHz
12MHz
7ns
13%
XC25BS8052
7
2MHz
10MHz
7ns
15%
XC25BS8053
8
2MHz
9MHz
6ns
14%
XC25BS8054
9
2MHz
8MHz
6ns
16%
XC25BS8055
10
2MHz
7MHz
7ns
21%
XC25BS8056
Multiplication
* Synchronization jitters are tested in the condition below.
For the XC258047 (1 Multiplication), fCLKIN =12MHz.
Except above, fCLKIN=3MHz is used.
4/16
For the XC258048(2 Multiplication), fCLKIN= 8MHz
XC25BS8
Series
ELECTRICAL CHARACTERISTICS
Recommended Operating Conditions: XC25BS8050xx (4 multiplication, Input 3MHz (TYP.)) 3.3V (TYP.)
O
Tested below Ta=25 C
PARAMETER
SYMBOL
CONDITIONS
Supply Voltage 3.3V
VDD
Input Frequency
fCLKin
(*1)
Multiplier Ratio
N/M
Typical value is shown (*1)
fQ0
Output Frequency
Load Capacity
(*3)
MIN.
tSTART
2.97
3.63
V
18.500
MHz
4
(*1)
-
8.000
74.000
-
15
pF
0.05
20
ms
2.000MHz
fCLKin
UNITS
2.000
3.3V (TYP.) operation
CL
Output Start Time (*2)(*3)
MAX.
MHz
NOTE:
*1: The values are measured when a capacitor CIN=0.1
F is connected between VDD and VSS pins,
a capacitor C1=0.1
F is connected
between LFP and VSS pins
*2: It is a time to get stable output signal from Q0 pin after the CE pin is turned on while applying supply voltage to the VDD pin and applying the
input signal to the CLKin pin.
*3: Values indicated are design values which are not guaranteed 100%.
DC Characteristics: XC25BS8050xx (4 multiplication, Input 3MHz (TYP.)) 3.3V (TYP.)
PARAMETER
SYMBOL
H Level Input Voltage
CONDITIONS
Ta=25
MIN.
TYP.
MAX.
UNITS
VIH
2.70
-
-
V
L Level Input Voltage
VIL
-
-
0.60
V
H Level Input Current
IiH
VCLKin=VDD-0.3V
-
-
3.0
L Level Input Current
IiL
VCLKin=0.3V
-3.0
-
-
H Level Output Voltage
VOH
VDD=2.97V IOH=-4mA
2.38
-
-
V
L Level Output Voltage
VOL
VDD=2.97V IOL= 4mA
-
-
0.45
V
Supply Current 1
IDD1
VDD=3.63V CE= 3.63V
-
5.0
10.0
mA
Supply Current 2
IDD2
VDD=3.63V CE= 0.0V
-
-
10
CE H Level Voltage
VCEH
2.70
-
-
V
V
CE L Level Voltage
VCEL
CE Pull-Down Resistance 1
Rdn1
CE= VDD
CE Pull-Down Resistance 2
Rdn2
Output Off Leak Current
IOZ
-
-
0.45
0.1
0.6
1.2
CE= 0.1*VDD
5
30
60
VDD=3.63V CE= 0.0V
-
-
10
NOTE:
TEST CONDITION: VDD=3.0V, fCLKin=3MHz, C1=0.1
CIRCUIT
A
A
A
A
F, Multiplier ratio=4, No load
AC Characteristics: XC25BS8050xx (4 multiplication, 3MHz(TYP.)) 3.3V (TYP.)
Ta=25
PARAMETER
SYMBOL
Output Rise Time
Output Fall Time
(*1)
(*1)
CONDITIONS
MAX.
UNITS
(20% ~ 80%)
-
4.0
8.0
ns
tF
(20% ~ 80%)
-
4.0
8.0
ns
45
50
55
-
45
-
ps
-
8.0
-
ns
Duty
PLL Output Signal Jitter 1 (*1)
tJ1
1
tJ
Peak to Peak (Output Tracking)
PLL Output Signal Jitter 2
TYP.
tR
Output Signal Duty Cycle (*1)
(*1)
MIN.
(Output Period)
CIRCUIT
NOTE:
TEST CONDITION: VDD=3.3V, fCLKin=3MHz, C1=0.1 F, Multiplier ratio=4, CL=15pF
*1: Values indicated are design values, which are not guaranteed 100%.
5/16
XC25BS8Series
ELECTRICAL CHARACTERISTICS (Continued)
Recommended Operating Conditions: XC25BS8025xx (256multiplication, Input 44.1kHz (TYP.)) 5.0V (TYP.)
O
Tested below Ta=25 C
PARAMETER
SYMBOL
Supply Voltage 5.0V
VDD
CONDITIONS
Input Frequency
fCLKin
Multiplier Ratio
N/M
Typical value is shown (*1)
fQ0
Load Capacity (*3)
CL
Output Start Time
(*2)(*3)
tSTART
MAX.
4.50
5.50
V
32.000
48.000
kHz
8.693
96.075
MHz
-
15
pF
0.05
20
ms
5.0V (TYP.) operation
(*1)
Output Frequency
MIN.
256
(*1)
32.000kHz
fCLKin
UNITS
NOTE:
*1: The values are measured when a capacitor CIN=0.1
F is connected between VDD and VSS pins,
a capacitor C1=0.1
F is connected
between LFP and VSS pins.
*2: It is a time to get stable output signal from Q0 pin after the CE pin is turned on while applying supply voltage to the VDD pin and applying
the input signal to the CLKin pin.
*3: Values indicated are design values which are not guaranteed 100%.
DC Characteristics: XC25BS8025xx (256 multiplication, Input 44.1kHz (TYP.) ) 5.0V (TYP.)
Ta=25
PARAMETER
SYMBOL
H Level Input Voltage
VIH
CONDITIONS
L Level Input Voltage
VIL
H Level Input Current
IIH
VCLKin=VDD-0.5V
L Level Input Current
IIL
H Level Output Voltage
L Level Output Voltage
Supply Current 1
MIN.
TYP.
MAX.
UNITS
4.00
-
-
V
V
-
-
1.00
-
-
5.0
A
VCLKin=0.5V
-5.0
-
-
A
VOH
VDD=4.50V IOH=-8mA
3.60
-
-
V
VOL
VDD=4.50V IOL= 8mA
-
-
0.65
V
IDD1
VDD=5.50V CE= 5.50V
-
6.5
13.0
mA
VDD=5.50V CE= 0.0V
Supply Current 2
IDD2
-
-
20
CE H Level Voltage
VCEH
4.00
-
-
V
CE L Level Voltage
VCEL
-
-
1.00
V
A
CE Pull-Down Resistance 1
Rdn1
CE= VDD
0.1
0.4
0.8
M
CE Pull-Down Resistance 2
Rdn2
CE= 0.1*VDD
2
20
40
k
Output Off Leak Current
IOZ
VDD=5.50V CE= 0.0V
-
-
10
NOTE:
TEST CONDITION: VDD=5.0V, fCLKin=44.1kHz, C1=0.1
CIRCUIT
A
F, Multiplier ratio=256, No load
AC Characteristics: XC25BS8025xx (256 multiplication, Input 44.1kHz (TYP.)) 5.0V (TYP.)
Ta=25
PARAMETER
SYMBOL
Output Rise Time
Output Fall Time
(*1)
(*1)
CONDITIONS
tR
(20% ~ 80%)
tF
(20% ~ 80%)
Output Signal Duty Cycle (*1)
Duty
PLL Output Signal Jitter 1 (*1)
tJ1
1
tJ
Peak to Peak (Output Tracking)
PLL Output Signal Jitter 2
(*1)
(Output Period)
NOTE:
TEST CONDITION: VDD=5.0V, fCLKin=44.1kHz, C1=0.1
F, Multiplier ratio=256, CL=15pF
*1: Values indicated are design values, which are not guaranteed 100%.
6/16
MIN.
TYP.
MAX.
UNITS
-
2.5
5.0
ns
ns
-
2.5
5.0
45
50
55
-
20
-
ps
-
18.0
-
ns
CIRCUIT
XC25BS8
Series
NOTE ON USE
(1) Please use this IC within the stated absolute maximum ratings. The IC is liable to malfunction should the ratings be
exceeded.
(2) The series is an analog IC. Please use a 0.01 F to 0.1 F of a by-pass capacitor.
(3) The constant of the LPF element of this IC is preset. Always use the capacitance value (=0.1 F) specified by us for
the external ceramic capacitor (C1) for LPF. Operating this IC with a capacitor of the wrong capacitance will cause
erroneous operation.
(4) Rq0 shown in the Typical Application Circuit is a matching resistor. The use is recommended in order to counter
unwanted radiations.
(5) Please place the by-pass capacitor and the matching resistor as close to the IC as possible.
The IC may not operate
normally if the by-pass capacitor is not close enough to the IC. Further, the unwanted radiation may occur between
the resistor and the IC pin if the matching resistor is not close enough to the IC.
(6)When the CE pin is not controlled by external signals, it is recommended that a time constant circuit of R1=1k
×C2
= 0.1 F be added for stability.
(7) With this IC, output is achieved by dividing and multiplying the reference oscillation by means of the PLL circuit.
In
cases where this output is further used as a reference oscillation of another PLL circuit, it may be that the final output
signal's jitter increases; therefore, all necessary precautions should be taken to avoid this.
(8) It is recommended that a low noise power supply, such as a series regulator, be used as the series’ supply voltage.
Using a power supply such as a switching regulator may enlarge the jitter, which in turn may lead to abnormal
operation. Please confirm its operation with the actual device.
(9) For operating the IC normally, please take procedures below when applying voltage to the series’ input pin:
1) Apply power source while the CE pin is "L" level with no clock input (high-Impedance or “L”),
2) Input the clock,
3) At least 100 s after applying clock input, change the CE pin into “H” level and then to enable.
The IC has to be started by inputting the clock once the power rises completely. The CE pin, then, should be enabling.
If the CE pin becomes enable and the clock is inputted before the power rises completely, an internal reset circuit
does not operate normally which may cause to generate extraneous frequency.
eg.)Matching Resistance
SOT-26W
Rq0
and Device for Time constant circuit (R1,C2 are connected,
Package:
7/16
XC25BS8Series
NOTE ON USE (Continued)
Instructions on Pattern Layout
1. In order to stabilize VDD voltage level, we recommend that a by-pass capacitor (CIN) be connected as close as possible to
the VDD and VSS pins.
2. Please mount the low pass filter capacitor C1(=0.1 F) as close to the IC as possible.
3. Make the pattern as close to the IC as possible and use thick, short connecting traces to reduce the circuit impedance.
4. Make sure that the VSS (GND) traces are as thick as possible, as variations in ground potential caused by noise may
result in instability of this product.
< Reference pattern layout >
* We prepare the evaluation board PCB, which is designed by the below layout pattern.
1. SOT-26W Reference Pattern Layout
8/16
2. USP-6C Reference Pattern Layout
XC25BS8
Series
TEST CIRCUIT
Determination, etc of output
Duty frequency and duty
Operating Supply Voltage
H Level Input Voltage
L Level Input Voltage
CE “H” Level Voltage
CE “L” Level Voltage
Output Rise Time
Output Fall Time
Output Signal Duty
PLL Output Signal Jitter 1
PLL Output Signal Jitter 2
Determination, etc of CE input voltage
CE
H Level Input Current
L Level Input Current
H Level Output Voltage
L Level Output Voltage
Checking output waveform
When measuring VOL: turn the switch on to R1
When measuring VOH: turn the switch on to R2
VDD
pulse
in
Q0
SW
CLKin
VSS
LPF
CE
R2
R1
C1
When measuring VOH
Q0 output waveform
When measuring VOL
Q0 output waveform
9/16
XC25BS8Series
TEST CIRCUIT (Continued)
Supply Current 1
Supply Current 2
VDD
A
Q0
CLKin
pulse
in
VSS
LPF
CE
SW=”H”
DDI measurement
SW=
H : IIDD1
measurement
SW=”L”
SW=
L : IDD2
IDD2
SW= L
C1
CE Pull-Down Resistance 1
Measuring IRdn1
Rdn1=VDD / IRdn1
Measuring IRdn2
Rdn2=(0.1 x VDD) / IRdn2
CE Pull-Down Resistance 2
Output Off Leak Current
VDD
Q0
A
CE
VSS
LPF
CLKin
C1
10/16
XC25BS8
Series
AC CHARACTERISTICS TEST WAVEFORM
1) Output Rise Time, Output Fall Time
Output Waveform
DUTY Test Level
Q0 Output Signal Waveform
tR
tF
2) Duty Cycle
Output Waveform
Q0 Output Signal
Duty Cycle
Measurement Level
DUTY
Duty Cycle =(TW / T)×100 %
3) Output Start Time
CE Input Signal Waveform
tSTART
Q0 Output Signal Waveform
11/16
XC25BS8Series
TYPICAL PERFORMANCE CHARACTERISTICS
Synchronous Output Frequency vs. Supply Voltage
XC25BS8001xx (610 multiplication, Input 15kHz(TYP.))
12/16
XC25BS8
Series
PACKAGE INFORMATION
SOT-26W
USP-6C
* No. 1 pin is wider than the other pins.
Soldering fillet surface is not formed because the
sides of the pins are not plated.
USP-6C Reference Pattern Layout
USP-①C
USP-6C Reference Metal Mask Design
13/16
XC25BS8Series
MARKING RULE
SOT-26W
represents product series
MARK
PRODUCT SERIES
8
XC25BS8001**
XC25BS8030**
2
XC25BS8031**
XC25BS8060**
3
XC25BS8061**
XC25BS8090**
represents product number of ordering information (Sequential number)
=8
MARK
NUMBER
PRODUCT SERIES
MARK
NUMBER
PRODUCT SERIES
1
01
XC25BS8001**
H
16
XC25BS8016**
2
02
XC25BS8002**
K
17
XC25BS8017**
3
03
XC25BS8003**
L
18
XC25BS8018**
4
04
XC25BS8004**
M
19
XC25BS8019**
5
05
XC25BS8005**
N
20
XC25BS8020**
6
06
XC25BS8006**
P
21
XC25BS8021**
7
07
XC25BS8007**
R
22
XC25BS8022**
8
08
XC25BS8008**
S
23
XC25BS8023**
9
09
XC25BS8009**
T
24
XC25BS8024**
A
10
XC25BS8010**
U
25
XC25BS8025**
B
11
XC25BS8011**
V
26
XC25BS8026**
C
12
XC25BS8012**
X
27
XC25BS8027**
D
13
XC25BS8013**
Y
28
XC25BS8028**
E
14
XC25BS8014**
Z
29
XC25BS8029**
F
15
XC25BS8015**
0
30
XC25BS8030**
=2 Sequential number 31
=3 Sequential number 61
,
01
09 0A
0Z 11
60
90 repeated.
9Z A1
A9 AA
Z9 ZA
ZZ repeated.
(G I J O Q W excluded. No character inversion used.)
14/16
XC25BS8
Series
MARKING RULE
USP-6C
,
represents product series
MARK
PRODUCT SERIES
B
8
XC25BS8001**
XC25BS8030**
B
2
XC25BS8031**
XC25BS8060**
B
3
XC25BS8061**
XC25BS8090**
represents product number of ordering information (Sequential number).
=8
MARK
NUMBER
PRODUCT SERIES
MARK
NUMBER
PRODUCT SERIES
1
01
XC25BS8001**
H
16
XC25BS8016**
2
02
XC25BS8002**
K
17
XC25BS8017**
3
03
XC25BS8003**
L
18
XC25BS8018**
4
04
XC25BS8004**
M
19
XC25BS8019**
5
05
XC25BS8005**
N
20
XC25BS8020**
6
06
XC25BS8006**
P
21
XC25BS8021**
7
07
XC25BS8007**
R
22
XC25BS8022**
8
08
XC25BS8008**
S
23
XC25BS8023**
9
09
XC25BS8009**
T
24
XC25BS8024**
A
10
XC25BS8010**
U
25
XC25BS8025**
B
11
XC25BS8011**
V
26
XC25BS8026**
C
12
XC25BS8012**
X
27
XC25BS8027**
D
13
XC25BS8013**
Y
28
XC25BS8028**
E
14
XC25BS8014**
Z
29
XC25BS8029**
F
15
XC25BS8015**
0
30
XC25BS8030**
=2
=3
Sequential number 31
Sequential number 61
60
90 repeated.
, 01 09 0A 0Z 11
9Z A1 A9 AA
Z9 ZA ZZ repeated.
(G I J O Q W excluded. No character inversion used.)
15/16
XC25BS8Series
1. The products and product specifications contained herein are subject to change without
notice to improve performance characteristics.
Consult us, or our representatives
before use, to confirm that the information in this datasheet is up to date.
2. We assume no responsibility for any infringement of patents, patent rights, or other
rights arising from the use of any information and circuitry in this datasheet.
3. Please ensure suitable shipping controls (including fail-safe designs and aging
protection) are in force for equipment employing products listed in this datasheet.
4. The products in this datasheet are not developed, designed, or approved for use with
such equipment whose failure of malfunction can be reasonably expected to directly
endanger the life of, or cause significant injury to, the user.
(e.g. Atomic energy; aerospace; transport; combustion and associated safety
equipment thereof.)
5. Please use the products listed in this datasheet within the specified ranges.
Should you wish to use the products under conditions exceeding the specifications,
please consult us or our representatives.
6. We assume no responsibility for damage or loss due to abnormal use.
7. All rights reserved. No part of this catalog may be copied or reproduced without the
prior permission of TOREX SEMICONDUCTOR LTD.
16/16
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