AD8150AST Analog Devices Inc, AD8150AST Datasheet - Page 21
AD8150AST
Manufacturer Part Number
AD8150AST
Description
IC CROSSPOINT SWIT 33X17 184LQFP
Manufacturer
Analog Devices Inc
Datasheet
1.AD8150AST.pdf
(44 pages)
Specifications of AD8150AST
Rohs Status
RoHS non-compliant
Function
Crosspoint Switch
Circuit
1 x 33:17
Voltage Supply Source
Dual Supply
Voltage - Supply, Single/dual (±)
±3 V ~ 5.5 V
Operating Temperature
0°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
184-LQFP
Number Of Arrays
1
Differential Data Transmission
Yes
Operating Supply Voltage (typ)
Not RequiredV
Mounting
Surface Mount
Operating Temperature (max)
85C
Cascading Capability
No
Line Code
NRZ
On-chip Buffers
Yes
On-chip Mux/demux
No
Operating Supply Voltage (max)
Not RequiredV
Operating Supply Voltage (min)
Not RequiredV
Dual Supply Voltage (typ)
3.3V
Lead Free Status / RoHS Status
Not Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
AD8150AST
Manufacturer:
ADI
Quantity:
210
Company:
Part Number:
AD8150ASTZ
Manufacturer:
Analog Devices Inc
Quantity:
10 000
CONTROL INTERFACE DESCRIPTION
The AD8150 control interface receives and stores the desired
connection matrix for the 33 input and 17 output signal pairs.
The interface consists of 17 rows of double-rank 7-bit latches,
one row for each output. The 7-bit data-word stored in each of
these latches indicates to which (if any) of the 33 inputs the
output will be connected.
One output at a time can be preprogrammed by addressing the
output and writing the desired connection data into the first
rank of latches. This process can be repeated until each of the
desired output changes has been preprogrammed. All output
connections can then be programmed at once by passing the
data from the first rank of latches into the second rank. The
output connections always reflect the data programmed into the
second rank of latches and do not change until the first rank of
data is passed into the second rank.
If necessary for system verification, the data in the second rank
of latches can be read back from the control interface.
At any time, a reset pulse can be applied to the control interface
to globally reset the appropriate second-rank data bits, disabling
all 17 signal output pairs. This feature can be used to avoid
output bus contention on system start-up. The contents of the
first rank remain unchanged.
The control interface pins are connected via logic-level
translators. These translators allow programming and readback
of the control interface using logic levels different from those in
the signal matrix.
To facilitate multiple chip address decoding, there is a chip-
select pin. All logic signals except the reset pulse are ignored
unless the chip-select pin is active. The chip-select pin disables
only the control logic interface and does not change the
operation of the signal matrix. The chip-select pin does not
power down any of the latches, so any data programmed in the
latches is preserved.
All control pins are level-sensitive, not edge-triggered.
Rev. A | Page 21 of 44
CONTROL PIN DESCRIPTION
A[4:0] Inputs
Output address pins. The binary encoded address applied to
these five input pins determines which one of the 17 outputs is
being programmed (or being read back). The most significant
bit is A4.
D[6:0] Inputs/Outputs
Input configuration data pins. In write mode, the binary
encoded data applied to Pins D[6:0] determine which one of 33
inputs is to be connected to the output specified with the A[4:0]
pins. The most significant bit is D5, and the least significant bit
is D0. Bit D6 is the enable bit, setting the specified output signal
pair to an enabled state if D6 is logic high, or to a disabled state,
high impedance, if D6 is logic low.
In readback mode, Pins D[6:0] are low impedance outputs,
indicating the data-word stored in the second rank for the
output specified with the A[4:0] pins. The readback drivers
were designed to drive high impedances only, so external
drivers connected to D[6:0] should be disabled during readback
mode.
WE Input
First-rank write enable. Forcing this pin to logic LOW allows
the data on Pins D[6:0] to be stored in the first-rank latch for
the output specified by Pins A[4:0]. The WE pin must be
returned to a logic high state after a write cycle to avoid
overwriting the first-rank data.
UPDATE Input
Second-rank write enable. Forcing this pin to logic low allows
the data stored in all 17 first-rank latches to be transferred to
the second-rank latches. The signal connection matrix will be
reprogrammed when the second-rank data is changed. This is a
global pin, transferring all 17 rows of data at once. It is not
necessary to program the address pins. It should be noted that
after initial power-up of the device, the first-rank data is
undefined. It may be desirable to preprogram all seventeen
outputs before performing the first update cycle.
AD8150
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