RTL8201CP
Datasheet
7.9. Repeater Mode Operation
Setting bit 15 of register 17 to 1, or pulling the RPTR pin high, sets the RTL8201CP into repeater mode.
In repeater mode, the RTL8201CP will assert CRS high only when receiving a packet. In NIC mode, the
RTL8201CP will assert CRS high both when transmitting and receiving packets. If using the RTL8201CP
in a NIC or switch application, set to the default mode. NIC/Switch mode is the default setting and has
the RPTR pin pulled low, or bit 15 of register 17 is set to 0.
7.10. Reset, and Transmit Bias
The RTL8201CP can be reset by pulling the RESETB pin low for about 10ms, then pulling the pin high.
It can also be reset by setting bit 15 of register 0 to 1, and then setting it back to 0. Reset will clear the
registers and re-initialize them. The media interface will disconnect and restart the auto-
negotiation/parallel detection process.
The RTSET pin must be pulled low by a 2KΩ resister with 1% accuracy to establish an accurate transmit
bias. This will affect the signal quality of the transmit waveform. Keep its circuitry away from other clock
traces and transmit/receive paths to avoid signal interference.
7.11. 3.3V Power Supply and Voltage Conversion Circuit
The RTL8201CP is fabricated in a 0.18µm process. The core circuit needs to be powered by 1.8V,
however, the digital IO and DAC circuits need a 3.3V power supply. A regulator is embedded in the
RTL8201CP to convert 3.3V to 1.8V. As with many commercial voltage conversion devices, the 1.8V
output pin (PWFBOUT) of this circuit requires the use of an output capacitor (22uF tantalum capacitor)
as part of the device frequency compensation, and another small capacitor (0.1uF) for high frequency
noise de-coupling.
PWFBIN is fed with the 1.8V power from PWFBOUT through a ferrite bead as shown in the reference
design schematic document (available for download from www.realtek.com.tw).
Note: Do not supply 1.8V produced by any power device other than PWFBOUT and PWFBIN.
The analog and digital ground planes should be as large and intact as possible. If the ground plane is large
enough, the analog and digital grounds can be separated, which is the ideal configuration. However, if the
total ground plane is not sufficiently large, partition of the ground plane is not a good idea. In this case,
all the ground pins can be connected together to a larger single and intact ground plane.
7.12. Far End Fault Indication
The MII Reg.1.4 (Remote Fault) is the Far End Fault Indication (FEFI) bit when 100FX mode is enabled
and indicates when a FEFI has been detected. FEFI is an alternative in-band signaling method which is
composed of 84 consecutive ‘1’s followed by one ‘0’. When the RTL8201CP detects this pattern three
times, Reg.1.4 is set, which means the transmit path (the Remote side’s receive path) has a problem. On
the other hand, if an incoming signal fails to cause a ‘Link OK’, the RTL8201CP will start sending this
pattern, which in turn causes the remote side to detect a Far End Fault. This means that the receive path
has a problem from the point of view of the RTL8201CP. The FEFI mechanism is used only in 100Base-
FX mode.
Single-Chip/Port 10/100 Fast Ethernet PHYceiver
22
Track ID: JATR-1076-21 Rev. 1.21
ETC [ ETC ]
