ZHCSKM7G december   2019  – july 2023 DP83826E , DP83826I

PRODUCTION DATA  

  1.   1
  2. 特性
  3. 应用
  4. 说明
  5. Revision History
  6. Mode Comparison Tables
  7. Pin Configuration and Functions (ENHANCED Mode)
  8. Pin Configuration and Functions (BASIC Mode)
  9. Specifications
    1. 8.1 绝对最大额定值
    2. 8.2 ESD 等级
    3. 8.3 建议运行条件
    4. 8.4 热性能信息
    5. 8.5 电气特性
    6. 8.6 时序要求
    7. 8.7 Timing Diagrams
    8. 8.8 Typical Characteristics
  10. Detailed Description
    1. 9.1 Overview
    2. 9.2 Functional Block Diagram
    3. 9.3 Feature Description
      1. 9.3.1  Auto-Negotiation (Speed/Duplex Selection)
      2. 9.3.2  Auto-MDIX Resolution
      3. 9.3.3  Energy Efficient Ethernet
        1. 9.3.3.1 EEE Overview
        2. 9.3.3.2 EEE Negotiation
      4. 9.3.4  EEE for Legacy MACs Not Supporting 802.3az
      5. 9.3.5  Wake-on-LAN Packet Detection
        1. 9.3.5.1 Magic Packet Structure
        2. 9.3.5.2 Magic Packet Example
        3. 9.3.5.3 Wake-on-LAN Configuration and Status
      6. 9.3.6  Low Power Modes
        1. 9.3.6.1 Active Sleep
        2. 9.3.6.2 IEEE Power-Down
        3. 9.3.6.3 Deep Power Down State
      7. 9.3.7  RMII Repeater Mode
      8. 9.3.8  Clock Output
      9. 9.3.9  Media Independent Interface (MII)
      10. 9.3.10 Reduced Media Independent Interface (RMII)
      11. 9.3.11 Serial Management Interface
        1. 9.3.11.1 Extended Register Space Access
        2. 9.3.11.2 Write Address Operation
        3. 9.3.11.3 Read Address Operation
        4. 9.3.11.4 Write (No Post Increment) Operation
        5. 9.3.11.5 Read (No Post Increment) Operation
        6. 9.3.11.6 Example Write Operation (No Post Increment)
      12. 9.3.12 100BASE-TX
        1. 9.3.12.1 100BASE-TX Transmitter
          1. 9.3.12.1.1 Code-Group Encoding and Injection
          2. 9.3.12.1.2 Scrambler
          3. 9.3.12.1.3 NRZ to NRZI Encoder
          4. 9.3.12.1.4 Binary to MLT-3 Converter
        2. 9.3.12.2 100BASE-TX Receiver
      13. 9.3.13 10BASE-Te
        1. 9.3.13.1 Squelch
        2. 9.3.13.2 Normal Link Pulse Detection and Generation
        3. 9.3.13.3 Jabber
        4. 9.3.13.4 Active Link Polarity Detection and Correction
      14. 9.3.14 Loopback Modes
        1. 9.3.14.1 Near-end Loopback
        2. 9.3.14.2 MII Loopback
        3. 9.3.14.3 PCS Loopback
        4. 9.3.14.4 Digital Loopback
        5. 9.3.14.5 Analog Loopback
        6. 9.3.14.6 Far-End (Reverse) Loopback
      15. 9.3.15 BIST Configurations
      16. 9.3.16 Cable Diagnostics
        1. 9.3.16.1 Time Domain Reflectometry (TDR)
        2. 9.3.16.2 Fast Link-Drop Functionality
      17. 9.3.17 LED and GPIO Configuration
    4. 9.4 Programming
      1. 9.4.1 Hardware Bootstraps Configuration
        1. 9.4.1.1 DP83826 Bootstrap Configurations (ENHANCED Mode)
          1. 9.4.1.1.1 Bootstraps for PHY Address
        2. 9.4.1.2 DP83826 Strap Configuration (BASIC Mode)
          1. 9.4.1.2.1 Bootstraps for PHY Address
    5. 9.5 Register Maps
      1. 9.5.1 DP83826 Registers
  11. 10Application and Implementation
    1. 10.1 Application Information
    2. 10.2 Typical Applications
      1. 10.2.1 Twisted-Pair Interface (TPI) Network Circuit
      2. 10.2.2 Transformer Recommendations
      3. 10.2.3 Capacitive DC Blocking
      4. 10.2.4 Design Requirements
        1. 10.2.4.1 Clock Requirements
          1. 10.2.4.1.1 Oscillator
          2. 10.2.4.1.2 Crystal
      5. 10.2.5 Detailed Design Procedure
        1. 10.2.5.1 MII Layout Guidelines
        2. 10.2.5.2 RMII Layout Guidelines
        3. 10.2.5.3 MDI Layout Guidelines
      6. 10.2.6 Application Curves
  12. 11Power Supply Recommendations
  13. 12Layout
    1. 12.1 Layout Guidelines
      1. 12.1.1 Signal Traces
      2. 12.1.2 Return Path
      3. 12.1.3 Transformer Layout
      4. 12.1.4 Metal Pour
      5. 12.1.5 PCB Layer Stacking
        1. 12.1.5.1 Layout Example
  14. 13Device and Documentation Support
    1. 13.1 Related Documentation
    2. 13.2 Receiving Notification of Documentation Updates
    3. 13.3 Support Resources
    4. 13.4 Trademarks
    5. 13.5 静电放电警告
    6. 13.6 术语表
  15. 14Mechanical, Packaging, and Orderable Information

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7 Pin Configuration and Functions (BASIC Mode)

The BASIC mode is one of two modes that the DP83826 can be configured in at start-up. This mode allows the DP83826 to support all the standard Ethernet applications and matches a common pinout configuration used in many of today's applications. To configure the DP83826 to BASIC mode, ModeSelect (pin 1) should be shorted to GND.

GUID-20210504-CA0I-9G1T-KNVQ-WDP18KGRSN8Q-low.svgFigure 7-1 RHB Package
32-Pin QFN
(Top View)
Table 7-1 Pin Functions (BASIC Mode)
PINTYPE (1)DESCRIPTION
NAMENO
ModeSelect1Reset: I, PU Active: I, PUThis pin selects the operating mode: BASIC mode or ENHANCED mode. This pin shall be shorted to GND to configure DP83826 in BASIC mode. For ENHANCED mode, this pin shall be left NC or pulled-up with a resistor to VDDIO.
CEXT2AExternal capacitor: Connect the CEXT pin through a 2-nF capacitor to GND.
VDDA3V33PowerInput analog power supply pin: This pin shall be connected with 3.3 V. For decoupling capacitor requirements, refer to section of datasheet.
RD_M4ADifferential receive input (PMD): These differential inputs are automatically configured to accept either 10BASE-Te or 100BASE-TX specific signaling mode.
RD_P5A
TD_M6ADifferential transmit output (PMD): These differential outputs are configured to either 10BASE-Te or 100BASE-TX signaling mode based on the configuration chosen for the PHY.
TD_P7A
XO8ACrystal output: reference clock output. XO pin is used for crystal only. Leave this pin floating when a CMOS-level oscillator is connected to XI.
XI/50MHzIn9ACrystal or oscillator input clock:

MII mode or RMII master mode: 25-MHz ±50 ppm-tolerance crystal or oscillator clock.

RMII slave mode: 50-MHz ±50 ppm-tolerance CMOS-level oscillator clock.

RBIAS10ABias resistance: RBIAS value 6.49 kΩ 1% precision connected to ground.
MDIO11Reset: I, PU Active: I/O, PUManagement data I/O: Bi-directional management data signal that may be sourced by the management station or the PHY. This pin has internal pullup resistor of 10 kΩ. An external pullup resistor can be added if needed.
MDC12Reset: I, PD Active: I, PDManagement data clock: Synchronous clock to the MDIO serial management input/output data. This clock may be asynchronous to the MAC transmit and receive clocks. The maximum clock rate is 25 MHz. There is no minimum clock rate.
RX_D313Reset: I, PU Active: O

Strap7

Receive data: Symbols received on the cable are decoded and presented on these pins synchronous to the rising edge of RX_CLK. They contain valid data when RX_DV is asserted. A nibble RX_D[3:0] is received in MII mode. 2-bits RX_D[1:0] is received in RMII mode.
RX_D214Reset: I, PD Active: O

Strap8

RX_D115Reset: I, PD Active: O

Strap9

RX_D016Reset: I, PU Active: O

Strap0

VDDIO17PowerI/O supply voltage: 3.3 V or 1.8 V. For decoupling capacitor requirements, refer to section of datasheet.
RX_DV/ CRS_DV18Reset: I, PD Active: O

Strap10

Receive data valid: This pin indicates valid data is present on the RX_D[3:0] for MII mode and on RX_D[1:0] in RMII mode. In MII mode, this pin acts as RX_DV. In RMII mode, this pin acts as CRS_DV and combines the RMII carrier and receive data valid indications.
RX_CLK/ 50MHz_RMII19Reset: I, PD Active: OMII receive clock: MII receive clock provides a 25-MHz reference clock for 100-Mbps speed and a 2.5-MHz reference clock for 10-Mbps speed, which is derived from the received data stream.

In RMII master mode, this provides 50-MHz reference clock. In RMII slave mode, this pin is not used and remains Input/PD.

RX_ER20Reset: I, PD Active: O

Strap6

Receive Error: This pin indicates that an error symbol has been detected within a received packet in both MII and RMII mode. In MII mode, RX_ER is asserted high synchronously to the rising edge of RX_CLK. In RMII mode, RX_ER is asserted high synchronously to the rising edge of the reference clock. RX_ER is asserted high for every reception error, including errors during Idle.
INT21Reset: I, PU; Active: I, PUInterrupt: This pin is asserted low when an interrupt condition occurs. The pin has an open-drain output with a weak internal pullup resistor (9.5 kΩ). Some applications may require an external PU resistor.
TX_CLK22Reset: I, PD Active: O

Strap5

MII transmit clock: MII Transmit Clock provides a 25-MHz reference clock for 100-Mbps speed and a 2.5-MHz reference clock for 10-Mbps speed. Note that in MII mode, this clock has constant phase referenced to the reference clock. Applications requiring such constant phase may use this feature. Unused in RMII Mode.
TX_EN23Reset: I, PD Active: I, PDTransmit enable: TX_EN is presented on the rising edge of the TX_CLK. TX_EN indicates the presence of valid data inputs on TX_D[3:0] in MII mode and on TX_D[1:0] in RMII mode. TX_EN is an active high signal.
TX_D024Reset: I, PD Active: I, PDTransmit data:

In MII mode, the transmit data nibble received from the MAC is synchronous to the rising edge of TX_CLK.

In RMII mode, TX_D[1:0] received from the MAC is synchronous to the rising edge of the reference clock.

TX_D125Reset: I, PD Active: I, PD
TX_D226Reset: I, PD Active: I, PD
TX_D327Reset: I, PD Active: I, PD
COL28Reset: I, PD Active: O

Strap4

Collision detect:

In MII mode: For Full-Duplex mode, this pin is always LOW. In Half Duplex mode, this pin is asserted HIGH only when both transmit and receive media are non-idle.

In RMII mode, this pin is not used.

CRS29Reset: I, PD Active: O

Strap3

Carrier sense:

In MII mode this pin is asserted high when the receive or transmit medium is non-idle.

carrier sense or receive data valid. In RMII mode, this pin is not used.

LED030Reset: I, PU Active: O

Strap2

LED0: This LED indicates transmit and receive activity in addition to the status of the Link. The LED is ON when link is good. The LED blinks when the transmitter or receiver is active.

LED polarity is fixed Active Low. If an external pull-down is required for strapping purposes, both the strap and LED series resistance will need adjustment for correct operation of both the LED and the strap. Please see the LED section for further details.

LED1/TX_ER31Reset: I, PU Active: O

Strap1

LED1: The pin acts as LED1 as default. The LED is ON when link is 100 M. LED remains OFF if the Link is 10 M, or there is no Link. This pin can be configured to TX_ER through register configuration.

LED polarity is fixed Active Low. If an external pull-down is required for strapping purposes, both the strap and LED series resistance will need adjustment for correct operation of both the LED and the strap. Please see the LED section for further details.

RST_N32Reset: I, PU Active: I, PUReset low: RST_N pin is an active low reset input. Asserting this pin low for at least 25 μs forces a reset process to occur. Initiation of reset causes strap pins to be re-scanned and resets all the internal registers of the PHY to default value.
(1) I = Input, O = Output, I/O = Input/Ouput, A = Analog, PU or PD = Internal pullup or pulldown: Hardware bootstrap configuration
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