DP83848HSQ National Semiconductor, DP83848HSQ Datasheet - Page 21
DP83848HSQ
Manufacturer Part Number
DP83848HSQ
Description
IC, TRANSCEIVER, ENET PHYTER, 40LLP
Manufacturer
National Semiconductor
Datasheet
1.DP83848HSQ.pdf
(80 pages)
Specifications of DP83848HSQ
Data Rate
100Mbps
No. Of Ports
1
Ethernet Type
IEEE 802.3u
Supply Current
92mA
Supply Voltage Range
3V To 3.6V
Operating Temperature Range
-40°C To +125°C
Digital Ic Case Style
LLP
No. Of
RoHS Compliant
Interface Type
MII Serial, RMII
Rohs Compliant
Yes
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
To tolerate potential frequency differences between the 50
MHz reference clock and the recovered receive clock, the
receive RMII function includes a programmable elasticity
buffer. The elasticity buffer is programmable to minimize
propagation delay based on expected packet size and
clock accuracy. This allows for supporting a range of
packet sizes including jumbo frames.
The elasticity buffer will force Frame Check Sequence
errors for packets which overrun or underrun the FIFO.
3.3 802.3u MII Serial Management Interface
3.3.1 Serial Management Register Access
The serial management MII specification defines a set of
thirty-two 16-bit status and control registers that are
accessible through the management interface pins MDC
and MDIO. The DP83848H implements all the required
MII registers as well as several optional registers. These
registers are fully described in Section 7.0. A description
of the serial management access protocol follows.
3.3.2 Serial Management Access Protocol
The serial control interface consists of two pins, Manage-
ment Data Clock (MDC) and Management Data Input/Out-
put (MDIO). MDC has a maximum clock rate of 25 MHz
and no minimum rate. The MDIO line is bi-directional and
may be shared by up to 32 devices. The MDIO frame for-
mat is shown below in Table 5.
The MDIO pin requires a pull-up resistor (1.5 k ) which,
during IDLE and turnaround, will pull MDIO high. In order
to initialize the MDIO interface, the station management
entity sends a sequence of 32 contiguous logic ones on
MDIO to provide the DP83848H with a sequence that can
be used to establish synchronization. This preamble may
be generated either by driving MDIO high for 32 consecu-
tive MDC clock cycles, or by simply allowing the MDIO
pull-up resistor to pull the MDIO pin high during which
time 32 MDC clock cycles are provided. In addition, 32
Read Operation
Write Operation
MII Management
Start Threshold
Serial Protocol
3 (12-bits)
0 (16-bits)
RBR[1:0]
1 (4-bits)
2 (8-bits)
Table 4. Supported packet sizes at +/-50ppm +/-100ppm for each clock
Latency Tolerance
<idle><start><op code><device addr><reg addr><turnaround><data><idle>
10 bits
14 bits
<idle><01><10><AAAAA><RRRRR><Z0><xxxx xxxx xxxx xxxx><idle>
<idle><01><01><AAAAA><RRRRR><10><xxxx xxxx xxxx xxxx><idle>
2 bits
6 bits
Table 5. Typical MDIO Frame Format
Recommended Packet Size
21
Underrun and Overrun conditions can be reported in the
RMII and Bypass Register (RBR). The following table indi-
cates how to program the elasticity buffer fifo (in 4-bit
increments) based on expected max packet size and
clock accuracy. It assumes both clocks (RMII Reference
clock and far-end Transmitter clock) have the same accu-
racy.
MDC clock cycles should be used to re-sync the device if
an invalid start, opcode, or turnaround bit is detected.
The DP83848H waits until it has received this preamble
sequence before responding to any other transaction.
Once the DP83848H serial management port has been
initialized no further preamble sequencing is required until
after a power-on/reset, invalid Start, invalid Opcode, or
invalid turnaround bit has occurred.
The Start code is indicated by a <01> pattern. This
assures the MDIO line transitions from the default idle line
state.
Turnaround is defined as an idle bit time inserted between
the Register Address field and the Data field. To avoid
contention during a read transaction, no device shall
actively drive the MDIO signal during the first bit of Turn-
around. The addressed DP83848H drives the MDIO with
a zero for the second bit of turnaround and follows this
with the required data. Figure 4 shows the timing relation-
ship between MDC and the MDIO as driven/received by
the Station (STA) and the DP83848H (PHY) for a typical
register read access.
For write transactions, the station management entity
writes data to the addressed DP83848H thus eliminating
the requirement for MDIO Turnaround. The Turnaround
time is filled by the management entity by inserting <10>.
Figure 5 shows the timing relationship for a typical MII
register write access.
at +/- 50ppm
12000 bytes
16800 bytes
2400 bytes
7200 bytes
Recommended Packet Size
at +/- 100ppm
1200 bytes
3600 bytes
6000 bytes
8400 bytes
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