AD9953YSV Analog Devices Inc, AD9953YSV Datasheet - Page 18
AD9953YSV
Manufacturer Part Number
AD9953YSV
Description
Manufacturer
Analog Devices Inc
Datasheet
1.AD9953YSV.pdf
(32 pages)
Specifications of AD9953YSV
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AD9953
CFR2<1:0>: Charge Pump Current Control Bits
These bits are used to control the current setting on th
pump. The default setting, CFR2
current to the default value of 75 μA. For each
11), 25 μA of current is added to the charge p
100 μA, 125 μA, and 150 μA.
Other Register Descriptions
Amplitude Scale Factor
The ASF register stores the 2-bit auto ram
and the 14-bit amplitude scale factor us
keying (OSK) operation. In auto OSK operation, ASF <15:14>
tells the OSK block how many amplitude steps to take for each
increment or decrement. For ASF<15:14> = {00, 01
increment/decrement is set to {1, 2, 4, 8}, respectively. ASF
<13:0> sets the maximum value achievable by the OSK internal
multiplier. In manu
ASF <13:0> provides the output scale factor dir
enable bit is cleared, CFR1<25> = 0, this register has n
on device operation.
Amplitude Ramp Rate (ARR)
The ARR register stores the 8-bit amplitude ramp rate used in
the auto OSK mode. This register programs the rate at which
the amplitude scale factor counter increments or decrements. If
the OSK is set to manual mode, or if OSK enable is cleared, this
register has no effect on device operation.
Frequency Tuning Word 0 (FTW0)
The frequency tuning word is a 32-bit register that controls t
rate of accumulation in the phase accumulator of the DDS
Its specific role is dependent on the device mode of operation.
Phase Offset Word (POW)
The phase offset word is a 14-bit register that stores a phase
offset value. This offset value is added to th
accumulator to offset t
exact value of phase offset is given by the following for
RAM Segment Control Words (RSCW0, RSCW1, RSCW
and RSCW3)
When the linear sweep enable bit CF
Registers 0x07, 0x08, 0x09, and 0x0A act as the RAM segm
control words for each of the RAM segments. Each of the RAM
segment control words is comprised of a RAM segment address
ramp rate, a final address value, a beginning address value, a
R
R
F
or RAM modes that step through address values, such as
AM segment mode control, and a n
AM Segment Address Ramp Rate, RSCW<39:24>
al OSK mode, ASF<15:14> has no effect.
he current phase of th
Φ
=
(ASF)
⎛
⎜
⎝
POW
2
14
<1:0>, sets the charge pump
⎞
⎟
⎠
×
R1<21> is clear,
o-dwell bit.
360
ed in the output shaped
°
p rate speed value
e output signal. The
e output of the phase
ump current:
bit added (01, 10,
ectly. If the OSK
, 10, 11}, the
mula:
e charge
o effect
core.
ent
Rev. A | Page 18 of 32
he
2,
ramping, this 16-bit word defines the number of
cycles the RAM controller dwells at each address. A value of 0 is
invalid. Any other value from 1 to 65535 may be used.
RAM Segment Final Address RSCW<9:8>, RSCW<23:16>
This discontinuous 10-bit sequence defines the final address
value for the given RAM segm
are listed is the order in which th
RSCW<23>, even though during t
significant than RSCW<9>, is only the third MSB of the final
address value. RSCW<9>, even though it comes later in the
RSCW than RSCW<23>, is the MSB of the final address value.
RAM Segment Beginning Address RSCW<3:0>, <15:10>
This discontinuous 10-bit sequence defines the final address
value for the given RAM segment. The order in which the b
are listed is the order in which the bits must be written.
RSCW<15>, even though during the write operation is more
significant than RSCW<3>, is only the fifth MSB of the final
address value. RSCW<3>, even though it comes later in the
RSCW than RSCW<1
RAM Segment Mode Control RSCW
This 3-bit sequence determines the RAM segment’s mode of
operation. There are only five possible RAM modes, so only
values of 0 to 5 are valid. See Table 6 to determine the bit
combination for various RAM modes.
RAM Segment No-Dwell Bit RSCW<4>
This bit sets the no-dwell feature of swe
profiles that sweep from a defined beginning to a defined end,
the RAM controller can either dwell at the final address until
the next profile is selected or, when this bit is set, the RAM
controller will return to the be
until the next profile is selecte
RAM
The AD9953 incorporates a 1024 × 32 block of SRAM. The
RAM is a bidirectional single port. Both read and write
operations from and to the RAM are valid, but they cannot
occur simultaneously. Write operations fro the serial I/O port
have precedence, and if an attempt to write to RAM is made
during a read operation, the read operation will be halted. The
RAM is controlled
operation described in the RAM Segment Control Wor
as well as data in the control function register. Read/write
control for the RAM will be described for each mode
supported.
When the RAM enable bit (CFR1<31>) is set, the RAM output
optionally drives the input to the phase accumulat
phase offset adder, depending on the state of the RA
tion bit (CFR1<30>). If CFR1<30> is a Logic 1, the RAM o
is connected to the phase offset adder and supplies the phas
offset control word(s) for the device. When CFR1<30> is
Logic 0 (default condition), the RAM output is connected to the
in multiple ways, dictated by the modes of
5>, is the MSB of the final address value.
d.
ent. The order in which the bits
ginning address and dwell there
e bits must be written.
he write operation is more
<7:5>
eping profiles. In
m
SYNC_CLK
or or the
M destina-
d <7:5>
utput
its
e
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