TOREX XC74UL4066M User Manual

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CMOS LogicXC74UL4066M
!Applications "CMOS Logic Analog Switch #Palmtops "Operating Voltage Range 2V to 5.5V #Digital Equipment "High Speed Operations tpd =3ns TYP "Low Power Consumption 1µA MAX "Low ON Resistance Ron=22 TYP
!Description !Features
Mar. 6, 01 Ver. I
XC74UL4066M
CMOS
gate one of the features of the CMOS logic, gives way to high speed analog or digital signal switching. As the series is integrated into a mini molded, SOT-25 package, high density mounting is possible.
CMOS Analog Switch
processes. The small quiescent current, which is
manufactured using silicon
High Speed Operations tpd = 3ns TYP Operating Voltage Range 2V to 5.5V Low Power Consumption 1µA MAX (Ta = 25OC) Low ON Resistance 22 TYP Small Package SOT-25
!Pin Configuration !Functions
Control
IN/OUT
OUT/IN
GND
V
1
CC
5
2
3
CONT
4
L OFF
HON
H = High Level L = Low Level
SOT-25
(TOP VIEW)
State
!Logic Diagram
CONT
OUT/ININ/OUT
1
N
XC74UL4066M CMOS Logic
O
!Absolute Maximum Ratings
PARAMETER
Power Supply Voltage
Control Input Voltage
Switch Output Voltage
Control Input Diode Current
Switch Output Diode Current
Switch Output Current
VCC, GND Current
Power Dissipation (Ta = 25
C)
Storage Temperature Tstg
Note : Voltage is all Ground standardized.
!Recommended Operating Conditions
PARAMETER SYMBOL UNITS
Supply Voltage
Input Voltage Vin V
Output Voltage
Operating Temperature
Input Rise and Fall Time tr, tf
O
Ta = -40
C ~ 85OC
SYMBOL
CC
V
V
Vout
I
ICC, I
CONT
IK
I
OK
I
OUT
GND
Pd
-0.5 ~ +6.0
-0.5 ~ +6.0
-0.5 ~ VCC +0.5
-20 ±20 ±25 ±50 200
-65 ~+150
Vcc(V)
CC
V
­Vout V Topr
-
-
3.3
5.0
RATINGS
2 ~5.5
0 ~ 5.5
0 ~ VCC
-40 ~ +85 0 ~ 100
0 ~ 20
UNITSRATINGS
V V
V mA mA mA mA
mW
O
C
V-
O
C
ns / V
!DC Electrical Characteristics
PARAMETER
"High" Level Control
Input Voltage"
SYMBOL
VIH
CONDITIONS
VCC(V)
2.0
3.0
5.5
"Low" Level Control
Input Voltage"
VIL
2.0
3.0
5.5
2.0
CONT=VIH
V
ONmax
Peak ON Resistance 3.0
ON Resistance 3.0 - 14 30 - 40
Power Off Leakage Current
Power On Leakage Current
Control Input Current
Quiscent Supply Current
R
R
ON
(1)
IS(OFF)
S
(ON)
I
CONT
I
CC
I
in/out
=1mA
CONT=VIH
in/out
=1mA
CONT=VIL, CONT=VIH,
in=VCC in=VCC
CC
CC
Vin=V
Vin=V
or GND or GND
CC,
CC or
Vout=G
GND
Vin=0~V
4.5
I
2.0 - 23 50 - 65
V Vin=GND or V
4.5 -
I
V
5.5
V
5.5 -
5.5
V
5.5
V
Ta=25OC
MIN
TYP MAX MIN MAX
1.5 -
- 1.5 -
2.1 - - 2.1 -
3.85 -
- 3.85 -
- - 0.5 - 0.5
- - 0.9 -
-
-22
-
50 - 65
12 25 -
10 20
-
±0.1
- - ±0.1 ±1.0
-- -
±0.1
- - 1.0
Ta=-40 ~ 85OC
0.9
1.65- - 1.65 ­550130 350 -
35
25
­±1.0-
-
±1.0
5.0
-
UNITS
V
V
µA µA µA µA
2
XC74UL4066M CMOS Logic
!Switching Electrical Characteristics
PARAMETER SYMBOL CONDITIONS
t
PLH
t
Propagation Delay Time
Output Enable Time
Output Disable Time
Sine Wave Distortion Rate
PHL
t
ZL
tZH t
LZ
t
HZ
C
L
50pF
50pF
50pF
50pF
VCC(V)
2.0
3.3
5.0
2.0
3.3
5.0
2.0
3.3
5.0
3.0
RL=10k
RL=1k
RL=1k RL=10k
IN
f
=1kHz
(tr = tf = 3ns)
O
C
Ta=25
Ta=-40 ~ 85OC
MIN TYP MAX MIN MAX
-
4
-
36 2
­950 -65
-
-
510 -12
-38 -
20 - 23
12 60 - 75
-
10 23 - 27
-
-
820 -25
- 0.05 - -
-8
5-
6
10
-
UNITS
ns
ns
ns
%
-3dB Band Width
50pF
3.0
20
log10
Vout
Vin
= - 3dB
-
200
---
RL=600k
RL=600k
Feed Through
50pF
3.0
IN
=1MHz
f
-60
--
-
(Switch-off)
2.0
3.0
4.5
2.0
3.0
4.5
-
-
-
-
RL=600k
IN
=1MHz
f RL=1k
OUT=VCC
V
/2
Cross Talk
50pF
(Control Switch)
Maximum Control
15pF
Input Frequency
Control Input Capacitance
Switch Input/Output Capacitance
Feed Through Capacitance
Power Dissipation Capacitance
CPD is defined as the value of the internal equivalent capacitance which is derived from the operating supply
Note:
C
in
Cin/out Cin-out
PD
C
-
-
-
-
-60 - -
- 100 - - -
- 150 - -
-30
--
-30---
-30---
-5
---
- 6 10 - 10
- 0.5 - -
-13---
current at times of "No Load". Ensure that the average operating supply current at times of "No Load" meets the following conditions:
CC
I
(opr)=CPD, VCC, Fin+I
CC
MHz
dB
-
­mV
-
-
MHz
pF pF
-
pF pF
3
XC74UL4066M CMOS Logic
!Propagation Delay Time
!Waveforms
INPUT
10%
tr tf
90%
50%
50%
t
PLH
90%
t
PHL
10%
V
CC
GND
V
CC
PRR=1MHz duty cycle 50%
tr=tf=3ns
OUTPUT
!Test Circuits
Generator
Pulse
50% 50%
CC
V
INPUT
ON
GND
V
CC
CONT
RL=
10k
GND
OUTPUT
CL=
50pF
Note: open output when measuring supply current
4
XC74UL4066M CMOS Logic
!Output Enable Time, Output Disable Time
!Waveforms
OUTPUT
OUTPUT
!Test Circuits
INPUT
10%
tr
90%
50%
ZH
t
50%
90%
ZL
t
50%
50%
tf
V
CC
PRR=1MHz duty cycle 50%
tr=tf=3ns
10%
HZ
t
90%
LZ
t
10%
GND
V
CC
GND
V
CC
GND
Pulse
Generator
CC
V
INPUT
CC
V
CONT
ON/OFF
GND
CC
V
V
CC
OUTPUT
RL=
1k
CL=
50pF
5
XC74UL4066M CMOS Logic
!Sine Wave Distortion Rate
!Test Circuits
f
IN
10
* Input by sine wave
µ
INPUT
F
CONT
ON
GND
V
CC
VCC/2
RL=
V
CC
10k
OUTPUT
CL=
50pF
! -3dB Band Width
!Test Circuits
IN
f
INPUT
µ
F
0.1
* Input by sine wave
CONT
ON
GND
CC
V
V
CC
V
OUT
OUTPUT
RL=
600
CL=
50pF
6
XC74UL4066M CMOS Logic
!Feed Through Test Circuits
0.1µF
IN
f
INPUT
CONT
OFF
CC
V
V
CC
VCC/2
RL=
600
OUPUT
!Cross Talk
!Waveforms
INPUT
RIN=
600
VCC/2
* Input by sine wave
tr
90%
10%
GND
90%
CL=
50pF
tf
CC
V
PRR=1MHz duty cycle 50%
tr=tf=3ns
10%
GND
!Test Circuits
VCC/2
Pulse
Generator
RIN=
600
CONT
OFF/ON
GND
V
CC
VCC/2
RL=
600
V
CC
OUPUT
CL=
50pF
7
XC74UL4066M CMOS Logic
!Maximum Control Input Frequency
!Waveforms
OUTPUT
!Test Circuits
INPUT
10%
tr
90%
90%
tf
10%
GND
CC
V
V
CC
tr=tf=3ns
/2
Pulse
Generator
INPUT
CONT
OFF/ON
GND
CC
V
V
CC
OUTPUT
RL=
1k
CL=
15pF
8
XC74UL4066M CMOS Logic
!On Resistance
!Test Circuits
INPUT
CONT =VIH
V
CONT
ON
CC
V
V
CC
OUTPUT
!Voltage Dependancies of ON Resistance
R
ON
R
ONmax
R
(1)
ON
GND
V
1.0 mA
IN-OUT
V
R
ON =
IN-OUT
V
10
(Ω)
-3
V
0
9
V
CC
IN
XC74UL4066M CMOS Logic
!Power Off Leakage Current
!Test Circuits
V
CONT=VIL
V
CC
CONT
V
CC
V
CC
V
CC
!Power On Leakage Current
!Test Circuits
CONT=VIH
V
A
OFF
GND
V
CC
CC
V
CONT
A
ON
GND
V
CC
OPEN
10
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