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| AD9777BSVZ Datasheet, PDF (21/60 Pages) Analog Devices – 16-Bit, 160 MSPS 2x/4x/8x Interpolating Dual TxDAC+ D/A Converter | |||
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AD9777
Address 03h
Address 05h, 09h
Bit 7: This allows the data rate clock (divided down from the
DAC clock) to be output at either the DATACLK/PLL_LOCK
pin (Pin 8) or at the SPI_SDO pin (Pin 53). The default of 0 in
this register enables the data rate clock at DATACLK/
PLL_LOCK, while a 1 in this register causes the data rate clock
to be output at SPI_SDO. For more information, see the Two
Port Data Input Mode section.
Bit 1, Bit 0: Setting this divide ratio to a higher number allows
the VCO in the PLL to run at a high rate (for best performance)
while the DAC input and output clocks run substantially slower.
The divider ratio is set according to the following table.
00
÷1
01
÷2
10
÷4
11
÷8
Address 04h
Bit 7, Bit 6, Bit 5, Bit 4, Bit 3, Bit 2, Bit 1, and Bit 0: These bits
represent an 8-bit binary number (Bit 7 MSB) that defines the
fine gain adjustment of the I (05h) and Q (09h) DAC according
to Equation 1.
Address 06h, 0Ah
Bit 3, Bit 2, Bit 1, and Bit 0: These bits represent a 4-bit binary
number (Bit 3 MSB) that defines the coarse gain adjustment of
the I (06h) and Q (0Ah) DACs according to Equation 1.
Address 07h, 0Bh
Bit 7, Bit 6, Bit 5, Bit 4, Bit 3, Bit 2, Bit 1, and Bit 0: These bits
are used in conjunction with Address 08h, 0Ch, Bits 1, 0.
Address 08h, 0Ch
Bit 1 and Bit 0: The 10 bits from these two address pairs (07h,
08h and 0Bh, 0Ch) represent a 10-bit binary number that
defines the offset adjustment of the I and Q DACs according to
Equation 1. (07h, 0BhâBit 7 MSB/08h, 0ChâBit 0 LSB).
Bit 7: Logic 0 (default) disables the internal PLL. Logic 1
enables the PLL.
Bit 6: Logic 0 (default) sets the charge pump control to
automatic. In this mode, the charge pump bias current is
controlled by the divider ratio defined in Address 03h, Bits 1
and 0. Logic 1 allows the user to manually define the charge
pump bias current using Address 04h, Bits 2, 1, and 0. Adjusting
the charge pump bias current allows the user to optimize the
noise/settling performance of the PLL.
Bit 2, Bit 1, Bit 0: With the charge pump control set to manual,
these bits define the charge pump bias current according to the
following table.
Address 08h, 0Ch
Bit 7: This bit determines the direction of the offset of the I
(08h) and Q (0Ch) DACs. A Logic 0 applies a positive offset
current to IOUTA, while a Logic 1 applies a positive offset current
to IOUTB. The magnitude of the offset current is defined by the
bits in Addresses 07h, 0Bh, 08h, 0Ch according to Equation 1.
Equation 1 shows IOUTA and IOUTB as a function of fine gain,
coarse gain, and offset adjustment when using 2R mode. In 1R
mode, the current IREF is created by a single FSADJ resistor
(Pin 60). This current is divided equally into each channel so that
a scaling factor of one-half must be added to these equations for
full-scale currents for both DACs and the offset.
000
50 µA
001
100 µA
010
200 µA
011
400 µA
111
800 µA
I OUTA
=
â¢â£â¡âââ
6 Ã I REF
8
ââââ
â â
COARSE
16
+
1
ââ
â
â
ââ
â
3Ã I REF
32
ââââ
â â
FINE
256
ââ ââ¥â¦â¤
Ã
â¢â£â¡âââ
1024
24
ââ ââââ
DATA
216
ââ ââ¥â¦â¤(A)
I OUTB
=
â¢â£â¡âââ
6 Ã I REF
8
ââââ
â â
COARSE
16
+1 ââ â ââ
â â
3Ã I REF
32
ââââ
â â
FINE
256
ââ ââ¥â¦â¤
Ã
â¢â¢â£â¡âââ
1024
24
ââ âââââ
216
â
DATA
216
â
1
âââ ââ¥â¥â¦â¤(A)
(1)
I OFFSET
=
4
Ã
I
REF
ââ
â
OFFSET
1024
ââ(A)
â
Rev. C | Page 21 of 60
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