Datasheet

DataIDLE Data(J/K) (TR)

T2.26.4

T2.26.1

T2.26.5

T2.26.3

T2.26.2

PMD Input

Pair

CRS/CRS_DV

RXD[1:0]

RX_ER

DP83630

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SNLS335B –OCTOBER 2010–REVISED APRIL 2013

4.30 AC Specifications — RMII Receive Timing (Slave Mode)

Parameter Description Notes Min Typ Max Units

T2.26.1 X1 Clock Period 50 MHz Reference Clock 20 ns

T2.26.2 RXD[1:0], CRS_DV, and RX_ER

output delay from X1 rising 2 14 ns

edge

(1)(2)

T2.26.3 100BASE-TX mode 18.5 bits

CRS ON delay

(3)

100BASE-FX mode 9

T2.26.4 100BASE-TX mode 27 bits

CRS OFF delay

(4)

100BASE-FX mode 17

T2.26.5 100BASE-TX mode 38

RXD[1:0] and RX_ER

bits

latency

(5)(6)(7)

100BASE-FX mode 27

(1) Per the RMII Specification, output delays assume a 25 pF load.

(2) CRS_DV is asserted asynchronously in order to minimize latency of control signals through the PHY. CRS_DV may toggle

synchronously at the end of the packet to indicate CRS de-assertion.

(3) CRS ON delay is measured from the first bit of the JK symbol on the PMD Input Pair to initial assertion of CRS_DV.

(4) CRS OFF delay is measured from the first bit of the TR symbol on the PMD Input Pair to initial de-assertion of CRS_DV.

(5) Receive Latency is measured from the first bit of the symbol pair on the PMD Input Pair. Typical values are with the Elasticity Buffer set

to the default value (01).

(6) Enabling IEEE 1588 Receive Timestamp insertion will increase the Receive Data Latency by 40 bit times.

(7) Enabling PHY Status Frames will introduce variability in Receive Data Latency due to insertion of PHY Status Frames into the receive

datapath.

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