®
ISO-CMOS
MT093
8 x 12 Analog Switch Array
Features
•
•
•
•
•
•
•
•
•
Internal control latches and address decoder
Short set-up and hold times
Wide operating voltage: 4.5V to 14.5V
3.5Vpp analog signal capability
R
ON
65Ω max. @ V
DD
=14V, 25°C
∆R
ON
≤
10Ω @ V
DD
=14V, 25°C
Full CMOS switch for low distortion
Minimum feedthrough and crosstalk
Low power consumption ISO-CMOS technology
ISSUE 1
January 1990
Ordering Information
MT093AC
40 Pin Ceramic DIP
MT093AE
40 Pin Plastic DIP
MT093AP
44 Pin PLCC
0° to 70°C
Description
The Mitel MT093 is fabricated in MITEL’s ISO-CMOS
technology providing low power dissipation and high
reliability. The device contains a 8×12 array of
crosspoint switches along with a 7 to 96 line decoder
and latch circuits. Any one of the 96 switches can be
addressed by selecting the appropriate seven input
bits. The selected switch can be turned on or off by
applying a logical one or zero to the DATA input.
Applications
•
•
•
•
•
PBX systems
Mobile radio
Test equipment /instrumentation
Analog/digital multiplexers
Audio/Video switching
STROBE
DATA RESET
VDD
VSS
AX0
AX1
AX2
AX3
AY0
AY1
AY2
1
1
••••••••••••••••
8 x 12
7 to 96
Decoder
Latches
Switch
Array
96
96
Xi I/O
(i=0-11)
•••••••••••••••••••
Yi I/O (i=0-7)
Figure 1 - Functional Block Diagram
3-65
MT093
ISO-CMOS
AX3
RESET
AY2
Y3
VDD
Y2
DATA
Y1
Y0
NC
NC
X0
X1
X2
X3
X4
X5
NC
NC
NC
44 PIN PLCC
40 PIN CERDIP/PLASTIC DIP
Figure 2 - Pin Connections
Pin Description
Pin #*
1
2
3
4,5
6,7
8-13
Name
Y3
AY2
RESET
AX3,AX0
NC
X6-X11
Description
Y3 Analog (Input/Output):
this is connected to the Y3 column of the switch array.
Y2 Address Line (Input).
Master RESET (Input):
this is used to turn off all switches. Active High.
X3 and X0 Address Lines (Inputs).
No Connection.
X6-X11 Analog (Inputs/Outputs):
these are connected to the X6-X11 rows of the switch
array.
14
NC
No Connection.
15
Y7
Y7 Analog (Input/Output):
this is connected to the Y7 column of the switch array.
16
NC
No Connection.
17
Y6
Y6 Analog (Input/Output):
this is connected to the Y6 column of the switch array.
18
STROBE
STROBE (Input):
enables function selected by address and data. Address must be stable
before STROBE goes high and DATA must be stable on the falling edge of the STROBE.
Active High.
19
Y5
Y5 Analog (Input/Output):
this is connected to the Y5 column of the switch array.
Ground Reference.
20
V
SS
21
Y4
Y4 Analog (Input/Output):
this is connected to the Y4 column of the switch array.
22, 23
AX1,AX2
X1 and X2 Address Lines (Inputs).
24, 25
AY0,AY1
Y0 and Y1 Address Lines (Inputs).
26, 27
NC
No Connection.
28 - 33
X5-X0
X5-X0 Analog (Inputs/Outputs):
these are connected to the X5-X0 rows of the switch
array.
34
NC
No Connection.
35
Y0
Y0 Analog (Input/Output):
this is connected to the Y0 column of the switch array.
36
NC
No Connection.
37
Y1
Y1 Analog (Input/Output):
this is connected to the Y1 column of the switch array.
38
DATA
DATA (Input):
a logic high input will turn on the selected switch and a logic low will turn off
the selected switch. Active High.
39
Y2
Y2 Analog (Input/Output):
this is connected to the Y2 column of the switch array.
Positive Power Supply.
40
V
DD
* Plastic DIP and CERDIP only.
3-66
Y7
Y6
STROBE
Y5
VSS
Y4
AX1
AX2
AY0
AY1
NC
Y3
AY2
RESET
AX3
AX0
NC
NC
X6
X7
X8
X9
X10
X11
NC
Y7
NC
Y6
STROBE
Y5
VSS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
40
39
38
37
36
35
34
33
32
31
30
29
28
27
26
25
24
23
22
21
VDD
Y2
DATA
Y1
NC
Y0
NC
X0
X1
X2
X3
X4
X5
NC
NC
AY1
AY0
AX2
AX1
Y4
NC
NC
X6
XY
X8
X9
X10
X11
NC
NC
NC
6 5 4 3 2 1 44 43 42 41 40
7
39
8
38
9
37
10
36
11
35
12
34
13
33
14
32
15
31
16
30
29
17
18 19 20 21 22 23 24 25 26 27 28
NC
AX0
ISO-CMOS
Functional Description
The MT093 is an analog switch matrix with an array
size of 8 x 12. The switch array is arranged such that
there are 8 columns by 12 rows. The columns are
referred to as the Y input/output lines and the rows
are the X input/output lines. The crosspoint analog
switch array will interconnect any X line with any Y
line when turned on and provide a high degree of
isolation when turned off. The control memory
consists of a 96 bit write only RAM in which the bits
are selected by the address input lines (AY0-AY2,
AX0-AX3). Data is presented to the memory on the
DATA input line. Data is asynchronously written into
memory whenever the STROBE input is high and is
latched on the falling edge of STROBE. A logical “1”
written into a memory cell turns the corresponding
crosspoint switch on and a logical “0” turns the
crosspoint off. Only the crosspoint switches
corresponding to the addressed memory location are
altered when data is written into memory. The
remaining switches retain their previous states. Any
combination of X and Y lines can be interconnected
by establishing appropriate patterns in the control
memory. A logical “1” on the RESET input line will
asynchronously return all memory locations to logical
“0” turning off all crosspoint switches.
MT093
Address Decode
The seven address lines along with the STROBE
input are logically ANDed to form an enable signal
for the resettable transparent latches. The DATA
input is buffered and is used as the input to all
latches. To write to a location, RESET must be low
while the address and data lines are set up. Then the
STROBE input is set high and then low causing the
data to be latched. The data can be changed while
STROBE is high, however, the corresponding switch
will turn on and off in accordance with the data. Data
must be stable on the falling edge of STROBE in
order for correct data to be written to the latch.
3-67
MT093
ISO-CMOS
Absolute Maximum Ratings
*
- Voltages are with respect to V
SS
unless otherwise stated.
Parameter
1
2
3
4
5
6
Supply Voltage
Analog Input Voltage
Digital Input Voltage
Current on any I/O Pin
Storage Temperature
Package Power Dissipation
PLASTIC DIP
CERDIP
Symbol
V
DD
V
SS
V
INA
V
IN
I
T
S
P
D
P
D
-65
Min
-0.3
-0.3
-0.3
V
SS
-0.3
Max
16.0
V
DD
+0.3
V
DD
+0.3
V
DD
+0.3
±15
+150
0.6
1.0
Units
V
V
V
V
mA
°C
W
W
* Exceeding these values may cause permanent damage. Functional operation under these conditions is not implied.
Recommended Operating Conditions
- Voltages are with respect to V
SS
unless otherwise stated.
Characteristics
1
2
3
4
Operating Temperature
Supply Voltage
Analog Input Voltage
Digital Input Voltage
Sym
T
O
V
DD
V
INA
V
IN
Min
0
4.5
V
SS
V
SS
Typ
25
Max
70
14.5
3.5
V
DD
Units
°C
V
V
V
Test Conditions
DC Electrical Characteristics
†
-
Characteristics
1
Quiescent Supply Current
Voltages are with respect to V
SS
=0V, V
DD
=14V unless otherwise stated.
Sym
I
DDQ
Min
Typ
‡
1
7
Max
100
15
±1
0.8
Units
µA
mA
µA
V
V
µA
Test Conditions
All digital inputs at V
IN
=V
SS
or
V
DD
All digital inputs at V
IN
=2.4V
IV
Xi
- V
Yj
I = V
DD
- V
SS
2
3
4
5
Off-state Leakage Current
Input Logic “0” level
Input Logic “1” level
Input Leakage (digital pins)
I
OFF
V
IL
V
IH
I
LEAK
2.4
10
All digital inputs at V
IN
= V
SS
or V
DD
† DC Electrical Characteristics are over recommended temperature range & recommended power supply voltages.
‡ Typical figures are at 25°C and are for design aid only; not guaranteed and not subject to production testing.
DC Electrical Characteristics- Switch Resistance
- V
IDC
/V
ODC
is the external DC offset applied at the analog
I/O pins.
Characteristics
Sym
25°C
Typ
Max
65
60°C
Typ
Max
70°C
Typ
Max
75
Units
Test Conditions
1 On-state
V
DD
=14V
Resistance
R
ON
45
Ω
V
SS
=0V,
IV
Xi
-V
Yj
I = 0.25V
V
IDC
=6.75V
V
ODC
=6.5V
V
DD
=14V, V
SS
=0,
V
IDC
=6.75V
V
ODC
=6.5V
IV
Xi
-V
Yj
I = 0.25V
2 Difference in on-state
resistance between two
switches
∆R
ON
5
10
10
10
Ω
3-68
ISO-CMOS
MT093
AC Electrical Characteristics
†
- Crosspoint Performance
-V
DC
is the external DC offset applied at the analog
I/O pins. Voltages are with respect to V
DD
=7V, V
DC
=0V, V
SS
=-7V, unless otherwise stated.
Characteristics
1
2
3
Switch I/O Capacitance
Feedthrough Capacitance
Frequency Response
Channel “ON”
20LOG(V
OUT
/V
Xi
)=-3dB
Total Harmonic Distortion
Feedthrough
Channel “OFF”
Feed.=20LOG (V
OUT
/V
Xi
)
Crosstalk between any two
channels for switches Xi-Yi and
Xj-Yj.
Xtalk=20LOG (V
Yj
/V
Xi
).
Sym
C
S
C
F
F
3dB
Min
Typ
‡
20
0.2
45
Max
Units
pF
pF
MHz
Test Conditions
f=1 MHz
f=1 MHz
Switch is “ON”; V
INA
= 2Vpp
sinewave; R
L
= 1kΩ
Switch is “ON”; V
INA
= 2Vpp
sinewave f= 1kHz; R
L
=1kΩ
All Switches “OFF”; V
INA
=
2Vpp sinewave f= 1kHz;
R
L
= 1kΩ.
V
INA
=2Vpp sinewave
f= 10MHz; R
L
= 75Ω.
V
INA
=2Vpp sinewave
f= 10kHz; R
L
= 600Ω.
V
INA
=2Vpp sinewave
f= 10kHz; R
L
= 1kΩ.
V
INA
=2Vpp sinewave
f= 1kHz; R
L
= 10kΩ.
R
L
=1kΩ; C
L
=50pF
4
5
THD
FDT
0.05
-95
%
dB
6
X
talk
-45
-90
-85
-80
dB
dB
dB
dB
50
ns
7
Propagation delay through
switch
t
PS
† Timing is over recommended temperature range.
‡ Typical figures are at 25°C and are for design aid only; not guaranteed and not subject to production testing.
Crosstalk measurements are for Plastic DIPS only, crosstalk values for PLCC packages are approximately 5dB better.
AC Electrical Characteristics
†
- Control and I/O Timings
- V
DC
is the external DC offset applied at the analog
I/O pins. Voltages are with respect to V
DD
=7V, V
DC
=0V, V
SS
=-7V, unless otherwise stated.
Characteristics
1
2
3
4
5
6
7
8
9
10
11
12
Control Input crosstalk to switch
(for DATA, STROBE, Address)
Digital Input Capacitance
Switching Frequency
Setup Time DATA to STROBE
Hold Time DATA to STROBE
Setup Time Address to STROBE
Hold Time Address to STROBE
STROBE Pulse Width
RESET Pulse Width
STROBE to Switch Status Delay
DATA to Switch Status Delay
RESET to Switch Status Delay
Sym
CX
talk
C
DI
F
O
t
DS
t
DH
t
AS
t
AH
t
SPW
t
RPW
t
S
t
D
t
R
Min
Typ
‡
50
10
Max
Units
mVpp
pF
Test Conditions
V
IN
=3V+V
DC
squarewave;
R
IN
=1kΩ, R
L
=10kΩ.
f=1MHz
R
L
= 1kΩ,
R
L
= 1kΩ,
R
L
= 1kΩ,
R
L
= 1kΩ,
R
L
= 1kΩ,
R
L
= 1kΩ,
R
L
= 1kΩ,
R
L
= 1kΩ,
R
L
= 1kΩ,
C
L
=50pF
C
L
=50pF
C
L
=50pF
C
L
=50pF
C
L
=50pF
C
L
=50pF
C
L
=50pF
C
L
=50pF
C
L
=50pF
10
20
20
20
20
40
80
80
100
70
200
200
200
MHz
ns
ns
ns
ns
ns
ns
ns
ns
ns
† Timing is over recommended temperature range.
Digital Input rise time (tr) and fall time (tf) = 10ns.
‡ Typical figures are at 25°C and are for design aid only; not guaranteed and not subject to production testing.
3-69
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