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Researching component design advice.

Finding suitable PHYs.

Researching PHY specifications.

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Found 10 results.

Found 10 results.

Looking for "Summarize key design-relevant features for using DP83867 with an FPGA over RGMII: supported MAC interfaces, RGMII internal delay capability, reference clock options, power rails, reset/strap pins, MDIO/MDC management, and any notes about magnetics or MDI connection." in dp83867ir.pdf

Looking for "Summarize key design-relevant features for using KSZ9031RNX with an FPGA over RGMII: supported MAC interfaces, RGMII internal delay capability, reference clock options, power rails, reset/strap pins, MDIO/MDC management, and any notes about magnetics or MDI connection." in 00002117f.pdf

Looking for "Summarize key design-relevant features for using RTL8211F with an FPGA over RGMII: supported MAC interfaces, RGMII internal delay capability, reference clock options, power rails, reset/strap pins, MDIO/MDC management, and any notes about magnetics or MDI connection." in RTL8211F-CG-Datasheet.pdf

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Finished searching for components.

For an FPGA + RGMII design, my first choice is DP83867IRRGZT.
Why this one
  • Its datasheet explicitly supports RGMII and gives programmable RX/TX clock delay modes with fine adjustment, which makes timing closure much easier than fixed-delay parts.
  • It can use a 25 MHz crystal/oscillator and can output a 25 MHz or 125 MHz synchronized clock.
  • It has standard MDC/MDIO management, hardware strap pins, and a very clear FPGA-oriented application model.
Good alternatives
  • KSZ9031RNXCA if you want a very common RGMII PHY. Its datasheet says the PHY adds 1.2 ns typical RX clock delay by default, while TX skew is normally expected from the MAC, with extra pad-skew tuning available.
  • RTL8211F-CG if cost matters. Its datasheet provides strap-selectable 2 ns TX and 2 ns RX internal delays, but documentation/integration is usually less pleasant.
Recommendation
  • Pick DP83867IRRGZT if this is your first FPGA Ethernet board.
  • Pick KSZ9031RNXCA if your FPGA MAC already has good RGMII skew control.
  • Pick RTL8211F-CG only if you already know that ecosystem well.
How to connect it MAC-side RGMII
Connect the FPGA MAC to the PHY like this:

Table

FPGA MACPHY
TXC / GTX_CLKTXC
TXD[3:0]TXD[3:0]
TX_CTLTX_CTL
RXCRXC
RXD[3:0]RXD[3:0]
RX_CTLRX_CTL
MDCMDC
MDIOMDIO
RESET outputRESET_N / PHYRSTB
Notes:
  • Use one skew strategy only: either the MAC inserts clock delay, or the PHY does. Do not add both.
  • For DP83867IRRGZT, use the PHY’s programmable RGMII delay unless your FPGA IP requires otherwise.
  • For KSZ9031RNXCA, the datasheet default is effectively: PHY handles RX clock skew, MAC handles TX clock skew.
  • For RTL8211F-CG, TX/RX delay is set by strap pins.
MDIO / reset / straps
  • Add an MDIO pull-up to the PHY I/O rail.
  • Strap the PHY address and mode pins with external resistors.
    • DP83867IRRGZT has internal 9 kΩ ±25% pulldowns and TI recommends 1% external strap resistors.
  • Drive reset from the FPGA or a reset supervisor.
    • RTL8211F-CG requires reset low for at least 10 ms, then wait 30 ms before register access.
Clocking
  • Add a 25 MHz crystal or oscillator for the PHY.
  • If your FPGA MAC wants a reference from the PHY:
Line side
Use the standard chain:
Ethernet PHY -> Ethernet Magnetics -> RJ45 Connector
Notes:
  • The datasheets assume external magnetics between PHY and jack.
  • TI specifically recommends a shielded RJ45 and integrated common-mode choke magnetics, and to avoid routing power/ground under the magnetics.
  • Keep chassis/shield grounding strategy deliberate near the connector.
Power rails
This is where the parts differ a lot:
  • DP83867IRRGZT: needs 2.5 V, 1.0/1.1 V core, plus VDDIO = 3.3/2.5/1.8 V, and has sequencing constraints.
  • KSZ9031RNXCA: core rails are 1.2 V, I/O rail 3.3/2.5/1.8 V, and it supports a single-3.3 V design using an on-chip LDO controller with an external FET.
  • RTL8211F-CG: uses 3.3 V plus internal/external 1.0 V generation options, and supports RGMII I/O at 3.3/2.5/1.8/1.5 V.
Layout tips
  • Keep all RGMII traces short and length-matched within each bus.
  • Keep clocks especially clean and avoid stubs.
  • Place the PHY close to both the FPGA and the magnetics, but prioritize a clean RGMII escape.
  • Keep the MDI differential pairs tightly coupled and routed as controlled-impedance pairs to the magnetics.
  • Follow the PHY datasheet guidance for the analog supplies and decoupling islands.
Practical advice
If your FPGA family already has an Ethernet MAC block and you just want the least painful board spin:
  • Use DP83867IRRGZT
  • Set RGMII delay in the PHY
  • Use MDIO for bring-up
  • Add a 25 MHz source, proper straps, magnetics, and RJ45
If you want, I can turn this into a concrete bring-up checklist or a pin-by-pin reference schematic for your FPGA + DP83867IRRGZT.
Pin-by-pin DP83867 schematic
Add bring-up checklist
Pick magnetics and jack
29 days
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U2
CP2105-F01-GMR
DEBUG_UART_RX
USBDP
CC1
DEBUG_UART_TX
USBDP
USBDN
CC2
+1V8
C6
Capacitance
0.1uF
VBUS
VBUS
C8
Capacitance
0.1uF
+3V3
C1
Capacitance
1uF
VBUS
C9
Capacitance
0.1uF
C4
Capacitance
1uF
+3V3
VBUS
C2
Capacitance
1uF
C7
Capacitance
1uF
+3V3
+3V3
U4
NCP161ASN180T1G
U3
NCP161ASN330T1G
R1
Resistance
5.1kΩ
R2
Resistance
5.1kΩ
  • Ground
    Ground
    A common return path for electric current. Commonly known as ground.
    jharwinbarrozo
    20.5M
  • Net Portal
    Net Portal
    Wirelessly connects nets on schematic. Used to organize schematics and separate functional blocks. To wirelessly connect net portals, give them same designator. #portal
    jharwinbarrozo
    43.0M
  • Power Net Portal
    Power Net Portal
    Wirelessly connects power nets on schematic. Identical to the net portal, but with a power symbol. Used to organize schematics and separate functional blocks. To wirelessly connect power net portals, give them the same designator. #portal #power
    jharwinbarrozo
    11.4M
  • Generic Resistor
    Generic Resistor
    A generic fixed resistor ideal for rapid circuit topology development. Its footprint automatically adapts based on the selected package case code—supporting 0402, 0603, 0805, 1203, and many other standard SMD packages, as well as axial horizontal and vertical configurations. Save precious design time by seamlessly add more information to this part (value, footprint, etc.) as it becomes available. Standard resistor values: 1.0 ohm, 10 ohm, 100 ohm, 1.0k ohm, 10k ohm, 100k ohm, 1.0M ohm 1.1 ohm, 11 ohm, 110 ohm, 1.1k ohm, 11k ohm, 110k ohm, 1.1M ohm 1.2 ohm, 12 ohm, 120 ohm, 1.2k ohm, 12k ohm, 120k ohm, 1.2M ohm 1.3 ohm, 13 ohm, 130 ohm, 1.3k ohm, 13k ohm, 130k ohm, 1.3M ohm 1.5 ohm, 15 ohm, 150 ohm, 1.5k ohm, 15k ohm, 150k ohm, 1.5M ohm 1.6 ohm, 16 ohm, 160 ohm, 1.6k ohm, 16k ohm, 160k ohm, 1.6M ohm 1.8 ohm, 18 ohm, 180 ohm, 1.8K ohm, 18k ohm, 180k ohm, 1.8M ohm 2.0 ohm, 20 ohm, 200 ohm, 2.0k ohm, 20k ohm, 200k ohm, 2.0M ohm 2.2 ohm, 22 ohm, 220 ohm, 2.2k ohm, 22k ohm, 220k ohm, 2.2M ohm 2.4 ohm, 24 ohm, 240 ohm, 2.4k ohm, 24k ohm, 240k ohm, 2.4M ohm 2.7 ohm, 27 ohm, 270 ohm, 2.7k ohm, 27k ohm, 270k ohm, 2.7M ohm 3.0 ohm, 30 ohm, 300 ohm, 3.0K ohm, 30K ohm, 300K ohm, 3.0M ohm 3.3 ohm, 33 ohm, 330 ohm, 3.3k ohm, 33k ohm, 330k ohm, 3.3M ohm 3.6 ohm, 36 ohm, 360 ohm, 3.6k ohm, 36k ohm, 360k ohm, 3.6M ohm 3.9 ohm, 39 ohm, 390 ohm, 3.9k ohm, 39k ohm, 390k ohm, 3.9M ohm 4.3 ohm, 43 ohm, 430 ohm, 4.3k ohm, 43K ohm, 430K ohm, 4.3M ohm 4.7 ohm, 47 ohm, 470 ohm, 4.7k ohm, 47k ohm, 470k ohm, 4.7M ohm 5.1 ohm, 51 ohm, 510 ohm, 5.1k ohm, 51k ohm, 510k ohm, 5.1M ohm 5.6 ohm, 56 ohm, 560 ohm, 5.6k ohm, 56k ohm, 560k ohm, 5.6M ohm 6.2 ohm, 62 ohm, 620 ohm, 6.2k ohm, 62K ohm, 620K ohm, 6.2M ohm 6.8 ohm, 68 ohm, 680 ohm, 6.8k ohm, 68k ohm, 680k ohm, 6.8M ohm 7.5 ohm, 75 ohm, 750 ohm, 7.5k ohm, 75k ohm, 750k ohm, 7.5M ohm 8.2 ohm, 82 ohm, 820 ohm, 8.2k ohm, 82k ohm, 820k ohm, 8.2M ohm 9.1 ohm, 91 ohm, 910 ohm, 9.1k ohm, 91k ohm, 910k ohm, 9.1M ohm #generics #CommonPartsLibrary
    jharwinbarrozo
    1.5M
  • Generic Capacitor
    Generic Capacitor
    A generic fixed capacitor ideal for rapid circuit topology development. You can choose between polarized and non-polarized types, its symbol and the footprint will automatically adapt based on your selection. Supported options include standard SMD sizes for ceramic capacitors (e.g., 0402, 0603, 0805), SMD sizes for aluminum electrolytic capacitors, and through-hole footprints for polarized capacitors. Save precious design time by seamlessly add more information to this part (value, footprint, etc.) as it becomes available. Standard capacitor values: 1.0pF, 10pF, 100pF, 1000pF, 0.01uF, 0.1uF, 1.0uF, 10uF, 100uF, 1000uF, 10000uF 1.1pF, 11pF, 110pF, 1100pF 1.2pF, 12pF, 120pF, 1200pF 1.3pF, 13pF, 130pF, 1300pF 1.5pF, 15pF, 150pF, 1500pF, 0.015uF, 0.15uF, 1.5uF, 15uF, 150uF, 1500uF 1.6pF, 16pF, 160pF, 1600pF 1.8pF, 18pF, 180pF, 1800pF 2.0pF, 20pF, 200pF, 2000pF 2.2pF, 22pF, 220pF, 2200pF, 0.022uF, 0.22uF, 2.2uF, 22uF, 220uF, 2200uF 2.4pF, 24pF, 240pF, 2400pF 2.7pF, 27pF, 270pF, 2700pF 3.0pF, 30pF, 300pF, 3000pF 3.3pF, 33pF, 330pF, 3300pF, 0.033uF, 0.33uF, 3.3uF, 33uF, 330uF, 3300uF 3.6pF, 36pF, 360pF, 3600pF 3.9pF, 39pF, 390pF, 3900pF 4.3pF, 43pF, 430pF, 4300pF 4.7pF, 47pF, 470pF, 4700pF, 0.047uF, 0.47uF, 4.7uF, 47uF, 470uF, 4700uF 5.1pF, 51pF, 510pF, 5100pF 5.6pF, 56pF, 560pF, 5600pF 6.2pF, 62pF, 620pF, 6200pF 6.8pF, 68pF, 680pF, 6800pF, 0.068uF, 0.68uF, 6.8uF, 68uF, 680uF, 6800uF 7.5pF, 75pF, 750pF, 7500pF 8.2pF, 82pF, 820pF, 8200pF 9.1pF, 91pF, 910pF, 9100pF #generics #CommonPartsLibrary
    jharwinbarrozo
    1.5M
  • Generic Inductor
    Generic Inductor
    A generic fixed inductor suitable for rapid circuit topology development. The footprint automatically adapts based on the selected package, supporting standard SMD sizes (e.g., 0402, 0603, 0805) as well as well-known inductor packages such as SDR1806, PA4320, SRN6028, and SRR1260. Standard inductor values: 1.0 nH, 10 nH, 100 nH, 1.0 µH, 10 µH, 100 µH, 1.0 mH 1.2 nH, 12 nH, 120 nH, 1.2 µH, 12 µH, 120 µH, 1.2 mH 1.5 nH, 15 nH, 150 nH, 1.5 µH, 15 µH, 150 µH, 1.5 mH 1.8 nH, 18 nH, 180 nH, 1.8 µH, 18 µH, 180 µH, 1.8 mH 2.2 nH, 22 nH, 220 nH, 2.2 µH, 22 µH, 220 µH, 2.2 mH 2.7 nH, 27 nH, 270 nH, 2.7 µH, 27 µH, 270 µH, 2.7 mH 3.3 nH, 33 nH, 330 nH, 3.3 µH, 33 µH, 330 µH, 3.3 mH 3.9 nH, 39 nH, 390 nH, 3.9 µH, 39 µH, 390 µH, 3.9 mH 4.7 nH, 47 nH, 470 nH, 4.7 µH, 47 µH, 470 µH, 4.7 mH 5.6 nH, 56 nH, 560 nH, 5.6 µH, 56 µH, 560 µH, 5.6 mH 6.8 nH, 68 nH, 680 nH, 6.8 µH, 68 µH, 680 µH, 6.8 mH 8.2 nH, 82 nH, 820 nH, 8.2 µH, 82 µH, 820 µH, 8.2 mH #generics #CommonPartsLibrary
    jharwinbarrozo
    15.8k
  • Terminal
    Terminal
    An electrical connector acting as reusable interface to a conductor and creating a point where external circuits can be connected.
    natarius
  • RMCF0805JT47K0
    RMCF0805JT47K0
    General Purpose Thick Film Standard Power and High-Power Chip Resistor 47 kOhms ±5% 0.125W, 1/8W Chip Resistor 0805 (2012 Metric) Automotive AEC-Q200 Thick Film Features: - RMCF – standard power ratings - RMCP – high power ratings - Nickel barrier terminations standard - Power derating from 100% at 70ºC to zero at +155ºC - RoHS compliant, REACH compliant, and halogen free - AEC-Q200 compliant
    jharwinbarrozo
    1.2M
  • 875105359001
    875105359001
    10 µF 16 V Aluminum - Polymer Capacitors Radial, Can - SMD 30mOhm 2000 Hrs @ 105°C #commonpartslibrary #capacitor #aluminumpolymer #radialcan
    jharwinbarrozo
    1.2M
  • CTL1206FYW1T
    CTL1206FYW1T
    Yellow 595nm LED Indication - Discrete 1.7V 1206 (3216 Metric)
    jharwinbarrozo
    1.1M

Radar Sensor XM125

Radar Sensor XM125 thumbnail
Turn a PC or Raspberry Pi into a radar lab. Plug-and-play USB-C, protected data lines, dual serial channels, and full access to reset/boot/I2C/UART/SWD for demos, evaluation, and algorithm prototyping.

Properties

creativecommons.org/licenses/by/4.0/

Pricing & Availability

Distributor

Qty 1

Arrow

$6.64–$7.47

Digi-Key

$4.66–$8.17

LCSC

$4.98–$5.48

Mouser

$32.15

TME

$0.69

Verical

$5.16–$47.72

Controls