參數(shù)資料
型號(hào): AD9776ABSVZ
廠商: Analog Devices Inc
文件頁(yè)數(shù): 44/56頁(yè)
文件大小: 0K
描述: IC DAC 12BIT 1.0GSPS 100TQFP
產(chǎn)品培訓(xùn)模塊: DAC Architectures
標(biāo)準(zhǔn)包裝: 1
位數(shù): 12
數(shù)據(jù)接口: 并聯(lián)
轉(zhuǎn)換器數(shù)目: 2
電壓電源: 模擬和數(shù)字
功率耗散(最大): 300mW
工作溫度: -40°C ~ 85°C
安裝類(lèi)型: 表面貼裝
封裝/外殼: 100-TQFP 裸露焊盤(pán)
供應(yīng)商設(shè)備封裝: 100-TQFP-EP(14x14)
包裝: 托盤(pán)
輸出數(shù)目和類(lèi)型: 4 電流,單極
采樣率(每秒): 1G
產(chǎn)品目錄頁(yè)面: 785 (CN2011-ZH PDF)
AD9776A/AD9778A/AD9779A
Rev. B | Page 49 of 56
DEVICE SYNCHRONIZATION
System demands can impose two different requirements for
synchronization. Some systems require multiple DACs to be
synchronized to each other. This is the case when supporting
transmit diversity or beam forming, where multiple antennas
are used to transmit a correlated signal. In this case, the DAC
outputs need to be phase aligned with each other, but there may
not be a requirement for the DAC outputs to be aligned with a
system level reference clock. In systems with a time division
multiplexing transmit chain, one or more DACs may need to be
synchronized with a system level reference clock. The options
for synchronizing devices under these two conditions are
described in the Synchronization Logic Overview section
SYNCHRONIZATION LOGIC OVERVIEW
Figure 88 shows the block diagram of the on-chip synchroniza-
tion logic. The basic operation of the synchronization logic is to
generate a single DACCLK-cycle-wide initialization pulse that
sets the clock generation state machine logic to a known state.
This initialization pulse loads the clock generation state machine
with the Clock State[4:0] value as its next state. If the initializa-
tion pulse from the synchronization logic is generated properly,
it is active for one DACCLK cycle, every 32 DACCLK cycles.
Because the clock generation state machine has 32 states operating
at the DACCLK rate, every initialization pulse received after the
first pulse loads the state in which the state machine is already
in, maintaining proper clocking operation of the device.
SYNC
DELAY
PULSE
GENERATION
LOGIC
ERROR DETECT
CIRCUITRY
CLOCK
GENERATION
STATE
MACHINE
DACCLK
BIT 0 (1× INTERPOLATION)
BIT 1 (2×)
BIT 2 (4×)
BIT 3 (8×)
BIT 4 (8× WITH
ZERO STUFFING)
MUX
SYNC IRQ
SYNC_I
DELAY REGISTER
(REG 0x0, BITS[7:4])
REFCLK
INTERNAL
PLL
BYPASS
06
45
2-
0
94
LOAD DACCLK OFFSET VALUE (REG 0x07,
BITS[4:0]), ONE DACCLK CYCLE/INCREMENT
fSYNC_1 < fDATA/2^N
Figure 88. Synchronization Circuitry Block Diagram
Nominally, the SYNC_I input should have one rising edge every
32 clock cycles (or multiple of 32 clock cycles) to maintain
proper synchronization. The pulse generation logic can be
programmed to suppress outgoing pulses if the incoming
SYNC_I frequency is greater than DACCLK/32. Extra pulses
can be suppressed by the ratios listed in Table 30. The SYNC_I
frequency can be lower than DACCLK/32 as long as output
pulses are generated from the pulse generation circuit on a
multiple of 32 DACCLK periods. In any case, the maximum
frequency of SYNC_I must be less than fDATACLK.
Table 30. Settings Required to Support Various SYNC_I
Frequencies
SYNC_I
Ratio[2:0]
SYNC_I Rising Edges Required for
Synchronization Pulse
000
1 (default)
001
2
010
4
011
8
100
16
101
Invalid setting
110
Invalid setting
111
Invalid setting
As an example, if a SYNC_I signal with a frequency of fDACCLK/4
is used, then both 011 and 100 are valid settings for the SYNC_I
Ratio[2:0] value. A setting of 011 results in one initialization
pulse being generated every 32 DACCLK cycles, and a setting
of 100 results in one initialization pulse being generated every
64 DACCLK cycles. Both cases result in proper device
synchronization.
The Clock State[4:0] value is the state to which the clock
generation state machine resets upon initialization. By varying
this value, the timing of the internal clocks with respect to the
SYNC_I signal can be adjusted. Every increment of the Clock
State[4:0] value advances the internal clocks by one DACCLK
period.
Synchronization Timing Error Detection
The synchronization logic has error detection circuitry similar to
the input data timing. The SYNC_I Timing Margin[3:0] variable
determines how much setup and hold margin the synchronization
interface needs for the sync timing error IRQ bit to remain inactive
(that is, to indicate error free operation). Therefore, the sync timing
error IRQ bit is set whenever the setup and hold margins drop
below the SYNC_I Timing Margin[3:0] value and, therefore,
does not necessarily indicate that the SYNC_I input was latched
incorrectly.
When the sync timing error IRQ bit is set, corrective action can
be taken to restore timing margin. One course of action is to
temporarily reduce the timing margin until the sync timing
error IRQ is cleared. Then, increase the SYNC_I delay by two
increments and check whether the timing margin has increased
or decreased. If it has increased, continue incrementing the
value of SYNC_I delay until the margin is maximized. However,
if incrementing the SYNC_I delay reduced the timing margin,
then the delay should be reduced until the timing margin is
optimized.
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