ADG701BRT-REEL7 Analog Devices Inc, ADG701BRT-REEL7 Datasheet - Page 10
ADG701BRT-REEL7
Manufacturer Part Number
ADG701BRT-REEL7
Description
IC SWITCH SPST SOT23-6
Manufacturer
Analog Devices Inc
Type
Analog Switchr
Datasheet
1.ADG702BRJZ-REEL7.pdf
(12 pages)
Specifications of ADG701BRT-REEL7
Rohs Status
RoHS non-compliant
Function
Switch
Circuit
1 x SPST- NC
On-state Resistance
3 Ohm
Voltage Supply Source
Single Supply
Voltage - Supply, Single/dual (±)
1.8 V ~ 5.5 V
Current - Supply
0.001µA
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
SOT-23-6
Package
6SOT-23
Maximum On Resistance
5@3V Ohm
Maximum High Level Output Current
30 mA
Maximum Turn-off Time
8(Typ)@5V ns
Maximum Turn-on Time
14(Typ)@3V ns
Switch Architecture
SPST
Power Supply Type
Single
Available stocks
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Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
ADG701BRT-REEL7
Manufacturer:
ON
Quantity:
1 000
ADG701/ADG702
APPLICATIONS INFORMATION
The ADG701/ADG702 belong to the Analog Devices family
of CMOS switches. This series of general-purpose switches
has improved switching times, lower on resistance, higher
bandwidth, low power consumption, and low leakage currents.
ADG701/ADG702 SUPPLY VOLTAGES
Functionality of the ADG701/ADG702 extends from 1.8 V to
5.5 V single supply, making the parts ideal for battery-powered
instruments, where power efficiency and performance are
important design parameters.
It is important to note that the supply voltage affects the input
signal range, on resistance, and switching times of the part. The
effects of the power supplies can be clearly seen in the Typical
Performance Characteristics and the Specifications sections.
For V
temperature range.
BANDWIDTH
Figure 18 illustrates the parasitic components that affect the ac
performance of CMOS switches (a box surrounds the switch).
Additional external capacitances further degrade performance by
affecting feedthrough, crosstalk, and system bandwidth.
The transfer function that describes the equivalent diagram of
the switch (see Figure 18) is of the form (A)s, shown in the
following equation:
where C
Figure 18. Switch Represented by Equivalent Parasitic Components
A
DD
(
s
V
T
= 1.8 V operation, R
)
S
IN
= C
=
R
LOAD
T
⎡
⎢
⎣
s
s
(
+ C
(
R
R
ON
R
C
ON
DS
ON
D
C
+ C
C
T
DS
R
C
T
DS
)
D
)
+
.
ON
+
1
1
is typically 40 Ω over the
⎤
⎥
⎦
C
LOAD
D
R
LOAD
V
OUT
Rev. C | Page 10 of 12
The signal transfer characteristic is dependent on the switch
channel capacitance, C
zero in the numerator of the transfer function A(s). Because the
switch on resistance is small, this zero usually occurs at high
frequencies. The bandwidth is a function of the switch output
capacitance combined with C
frequency pole corresponding to these capacitances appears in
the denominator of A(s).
The dominant effect of the output capacitance, C
breakpoint frequency to occur first. To maximize bandwidth, a
switch must have a low input and output capacitance and low
on resistance. The on response vs. frequency for the ADG701/
ADG702 can be seen in Figure 10.
OFF ISOLATION
Off isolation is a measure of the input signal coupled through
an off switch to the switch output. The capacitance, C
the input signal to the output load when the switch is off, as
shown in Figure 19.
The larger the value of C
produced. Figure 9 illustrates the drop in off isolation as a
function of frequency. From dc to roughly 1 MHz, the switch
shows better than −75 dB isolation. Up to frequencies of 10 MHz,
the off isolation remains better than −55 dB. As the frequency
increases, more of the input signal is coupled through to the
output. Off isolation can be maximized by choosing a switch
with the smallest C
capacitance also affect off isolation, because they contribute to
the coefficients of the poles and zeros in the transfer function of
the switch when open.
Figure 19. Off Isolation Is Affected by External Load Resistance and
A
(
s
V
)
S
IN
=
R
T
⎡
⎢
⎣
s
s
(
(
R
R
DS
LOAD
C
LOAD
possible. The values of load resistance and
DS
DS
)(
. This capacitance creates a frequency
C
DS
C
DS
C
, the larger the values of feedthrough
Capacitance
D
T
)
)
DS
+
+
1
and the load capacitance. The
1
⎤
⎥
⎦
C
LOAD
D
R
LOAD
D
, causes the pole
DS
, couples
V
OUT
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