AD9963 Analog Devices, AD9963 Datasheet - Page 47
AD9963
Manufacturer Part Number
AD9963
Description
10-/12-Bit, Low Power, Broadband MxFE
Manufacturer
Analog Devices
Datasheet
1.AD9961.pdf
(60 pages)
Specifications of AD9963
Resolution (bits)
12bit
Throughput Rate
100MSPS
# Chan
2
Supply V
Multi(+1.8Anlg, +1.8Dig),Multi(+1.8Anlg, +3.3Dig) ,Single(+1.8),Single(+3.3)
Sample Rate
100MSPS
Adc Bits X #adcs-speed
12x2-100 MHz
Dac Bits X #dacs-clkspeed
12x2-170 MHz
Pkg Type
CSP
Primary Application
Broadband Wireless
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The DLL is composed of a ring oscillator made from a
programmable delay line. The ring oscillator output signal is
labeled as MCLK. The MCLK signal is set to oscillate at a
frequency M times greater than the REFCLK signal. The DLL
output clock, DLLCLK, is the MCLK signal divided by a
programmable factor, N. M can be set to values from 1 to 32
and N can be set to values from 1 to 6 and 8.
DLL Frequency Locking Range
The DLL frequency lock range is determined by the output
frequency of the ring oscillator, MCLK. The DLL locks over an
MCLK frequency range of 100 MHz to 310 MHz. Verifying that
the DLL is locked can be done by polling the DLL_Locked bit
(Register 0x72, Bit 7).
DLL Filter Considerations
The DLL requires an external loop filter between the DLLFILT
pin (Pin 54) and ground for stable operation. The circuit
diagram in Figure 71 shows the recommended DLL filter
configuration. The external components should be placed as
close as possible to the device pins. It is important that no noise
be coupled into the filter circuit or DLL output clock jitter
performance is degraded.
Table 22. Clock Doubler Configuration Guidelines
DACCLK/AUXADCCLK Freq
(MHz)
0 to 15
15 to 30
30 to 45
45 to 55
55 to 65
65 to 70
70 to ≥70
1
2
The DCS_BP bit should be set based on the AUXADCCLK frequency.
X = don’t care.
Figure 71. Recommended DLL Loop Filter
DLLFI LT
C
P
TXDBLSEL
Register 0x39,
Bit 0
0
1
1
1
1
1
1
820pF
22.5Ω
R
Z
C
Z
68nF
TX_DBLPW[2:0]
Register 0x3E,
Bits[5:3]
111
X
X
X
X
X
X
2
2
2
2
2
2
Rev. 0 | Page 47 of 60
DLL Start-Up Routine
To enable the DLL, three bits should be set. The DLL_EN bit
(Register 0x60, Bit 7) and the DLL_REF_EN bit (Register 0x71,
Bit 4) should be set to 1 and the DLLBIAS_PD bit (Register
0x61, Bit 5) should be set to 0.
The CLK input signal should be stable. The DLL_RESB bit
should be asserted low for a minimum of 25 µs, and then
brought inactive (high) to start the frequency acquisition. The
DLL takes several REFCLK cycles to acquire lock. The
DLL_Locked bit can be queried to verify the DLL is locked.
CONFIGURING THE CLOCK DOUBLERS
The receive and transmit data path each have a clock doubler
used for clocking data through the device. These clock doublers
are only used in single data rate clocking mode, when there is
no interpolation or decimation being used.
These doublers should be configured according to the following
guidelines.
Register 0x3A, Register 0x3B, and Register 0x3C configure the
operating points of the doublers and should be initialized with
the following values:
0x3A = 0x55, 0x3B = 0x55, 0x3C = 0x00
The clock doubler mode and pulse widths should be configured
based on the DAC and ADC sample rates. These should be
configured according to Table 22.
RXDBLSEL
Register 0x39,
Bit 1
0
0
0
0
0
0
1
RX_DBLPW[2:0]
Register 0x3E,
Bits[2:0]
111
111
110
101
100
011
X
2
AD9961/AD9963
DCS_BP
Register 0x66,
Bit 2
1
1
1
1
1
1
0
1
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