參數資料
    型號: AD9737ABBCZ
    廠商: Analog Devices Inc
    文件頁數: 48/64頁
    文件大?。?/td> 0K
    描述: IC DAC 11BIT 2.5GSPS RF 160BGA
    標準包裝: 1
    設置時間: 13ns
    位數: 11
    數據接口: LVDS,串行,SPI?
    轉換器數目: 1
    電壓電源: 模擬和數字
    功率耗散(最大): 960µW
    工作溫度: -40°C ~ 85°C
    安裝類型: 表面貼裝
    封裝/外殼: 160-LFBGA,CSPBGA
    供應商設備封裝: 160-CSPBGA(12x12)
    包裝: 托盤
    輸出數目和類型: 1 電流,單極
    采樣率(每秒): 2.5G
    AD9737A/AD9739A
    Data Sheet
    Rev. | Page 52 of 64
    The LVDS receivers include 100 Ω termination resistors, as shown
    in Figure 163. These receivers meet the IEEE-1596.3-1996
    reduced swing specification (with the exception of input hysteresis,
    which cannot be guaranteed over all process corners). Figure 164
    and Table 26 show an example of nominal LVDS voltage levels
    seen at the input of the differential receiver with resulting
    common-mode voltage and equivalent logic level. Note that
    the AD9737A/AD9739A LVDS inputs do not include fail-safe
    capability; hence, any unused input should be biased with an
    external circuit or static driver. The LVDS receivers can be
    powered-down via Register 0x01, Bit 4.
    LVDS INPUTS
    (NO FAIL-SAFE)
    V
    P
    LVDS
    RECEIVER
    GND
    100
    V
    N
    V
    P,N
    V
    COM
    = (V
    P
    + V
    N
    )/2
    LOGIC BIT
    EQUIVALENT
    V
    P
    V
    N
    V
    P
    V
    N
    Example
    1.4V
    1.0V
    0.4V
    –0.4V
    0V
    LOGIC 1
    LOGIC 0
    09616-
    084
    Figure 164. LVDS Data Input Levels
    Table 26. Example of LVDS Input Levels
    Applied Voltages
    Resulting
    Differential
    Voltage
    Resulting
    Common-
    Mode
    Voltage
    Logic Bit
    Binary
    Equivalent
    VP
    VN
    VP,N
    VCOM
    1.4 V
    1.0 V
    +0.4 V
    1.2 V
    1
    1.0 V
    1.4 V
    0.4 V
    1.2 V
    0
    1.0 V
    0.8 V
    +200 mV
    900 mV
    1
    0.8 V
    1.0 V
    200 mV
    900 mV
    0
    MU CONTROLLER
    A delay lock loop (DLL) is used to optimize the timing between
    the internal digital and analog domains of the AD9737A/AD9739A
    such that data is successfully transferred into the TxDAC core at
    rates of up to 2.5 GSPS. As shown in Figure 165, the DAC clock
    is split into an analog and a digital path with the critical analog
    path leading to the DAC core (for minimum jitter degradation)
    and the digital path leading to a programmable delay line. Note that
    the output of this delay line serves as the master internal digital
    clock from which all other internal and external digital clocks
    are derived. The amount of delay added to this path is under the
    control of the Mu controller, which optimizes the timing between
    these two clock domains and continuously tracks any variation
    (once in track mode) to ensure proper data hand-off.
    14-BIT
    DATA
    14-BIT
    DATA
    IOUTP
    IOUTN
    DIGITAL
    CIRCUITRY
    ANALOG
    CIRCUITRY
    MU
    DELAY
    DAC
    CLOCK
    PHASE
    DETECTOR
    MU
    DELAY
    CONTROLLER
    09616-
    085
    Figure 165. AD97339A Mu Delay Controller Block Diagram
    The Mu controller adjusts the timing relationship between the
    digital and analog domains via a tapped digital delay line having
    a nominal total delay of 864 ps. The delay value is programmable
    to a 9-bit resolution (that is, 0 to 432 decimal) via the MUDEL
    bits (Register 0x27 and 0x28), resulting in a nominal resolution
    of 2 ps/LSB. Because a time delay maps to a phase offset for a
    fixed clock frequency, the control loop essentially compares the
    phase relationship between the two clock domains and adjusts
    the phase (that is, via a tapped delay line) of the digital clock such
    that it is at the desired fixed phase offset (SET_PHS) from the
    critical analog clock.
    0
    2
    4
    6
    8
    10
    12
    14
    16
    18
    0
    40
    80
    120
    160
    200
    240
    280
    320
    360
    400
    440
    SEARCH STARTING
    LOCATION
    GUARD
    BAND
    GUARD
    BAND
    MU DELAY
    M
    U
    P
    HAS
    E
    DESIRED
    PHASE
    09616-
    086
    Figure 166. Typical Mu Phase Characteristic Plot at 2.4 GSPS
    Figure 166 maps the typical Mu phase characteristic at 2.4 GSPS vs.
    the 9-bit digital delay setting (MUDEL). The Mu phase scaling
    is such that a value of 16 corresponds to 180 degrees. The critical
    keep-out window between the digital and analog domains occurs
    at a value of 0 (but can extend out to 2 depending on the clock
    rate). The target Mu phase (and slope) is selected to provide
    optimum ac performance while ensuring that the Mu controller
    for any device can establish and maintain lock. For example,
    although a slope and phase setting of 6 is considered optimum
    for operation between 1.6 GSPS and 2.5 GSPS, other values are
    required below 1.6 GSPS.
    C
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    相關代理商/技術參數
    參數描述
    AD9737ABBCZRL 功能描述:數模轉換器- DAC 11-Bit 2.5 GSPS RF RoHS:否 制造商:Analog Devices 轉換器數量:4 DAC 輸出端數量:4 轉換速率: 分辨率:12 bit 接口類型:Serial (I2C) 穩(wěn)定時間: 最大工作溫度:+ 105 C 安裝風格: 封裝 / 箱體:TSSOP 封裝:Reel
    AD9737A-EBZ 功能描述:BOARD EVAL FOR AD9737A RoHS:是 類別:編程器,開發(fā)系統 >> 評估板 - 數模轉換器 (DAC) 系列:* 產品培訓模塊:Lead (SnPb) Finish for COTS Obsolescence Mitigation Program 標準包裝:1 系列:- DAC 的數量:4 位數:12 采樣率(每秒):- 數據接口:串行,SPI? 設置時間:3µs DAC 型:電流/電壓 工作溫度:-40°C ~ 85°C 已供物品:板 已用 IC / 零件:MAX5581
    AD9739 制造商:AD 制造商全稱:Analog Devices 功能描述:14-Bit, 2.5 GSPS, RF Digital-to-Analog Converter
    AD9739A 制造商:AD 制造商全稱:Analog Devices 功能描述:14-Bit, 2.5 GSPS, RF Digital-to-Analog Converter
    AD9739ABBC 制造商:Analog Devices 功能描述:14 BIT 2.5 GSPS DAC A REVISION - Trays
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