LAN9117_08 Datasheet, PDF(43/136 Page) SMSC Corporation – High Performance Single-Chip 10/100 Non-PCI Ethernet Controller

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LAN9117_08 Datasheet, PDF (43/136 Pages) SMSC Corporation – High Performance Single-Chip 10/100 Non-PCI Ethernet Controller

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High Performance Single-Chip 10/100 Non-PCI Ethernet Controller

Datasheet

3.11.1 Power-On Reset (POR)

A Power-On reset occurs whenever power is initially applied to the LAN9117, or if power is removed

and reapplied to the LAN9117. A timer within the LAN9117 will assert the internal reset for

approximately 22ms. The READY bit in the PMT_CTRL register can be read from the host interface

and will read back a â0â until the POR is complete. Upon completion of the POR, the READY bit in

PMT_CTRL is set high, and the LAN9117 can be configured via its control registers.

APPLICATION NOTE: Under normal conditions, the READY bit in PMT_CTRL will be set (high -â1â) after an internal

reset (22ms). If the software driver polls this bit and it is not set within 100ms, then an error

condition occurred.

3.11.2 Hardware Reset Input (nRESET)

A hardware reset will occur when the nRESET input signal is driven low. The READY bit in the

PMT_CTRL register can be read from the host interface, and will read back a â0â until the hardware

reset is complete. Upon completion of the hardware reset, the READY bit in PMT_CTRL is set high.

After the âREADYâ bit is set, the LAN9117 can be configured via its control registers. The nRESET

signal is pulled-high internally by the LAN9117 and can be left unconnected if unused. If used, nRESET

must be driven low for a minimum period as defined in Section 6.8, "Reset Timing," on page 127.

APPLICATION NOTE: Under normal conditions, the READY bit in PMT_CTRL will be set (high -â1â) immediately. If

the software driver polls this bit and it is not set within 100ms, then an error condition

occurred.

3.11.3 Resume Reset Timing

After issuing a write to the BYTE_TEST register to wake the LAN9117 from a power-down state, the

READY bit in PMT_CTRL will assert (set High) within 2ms.

APPLICATION NOTE: Under normal conditions, the READY bit in PMT_CTRL will be set (high -â1â) within 2 ms. If

the software driver polls this bit and it is not set within 100ms, then an error condition

occurred.

3.11.4 Soft Reset (SRST)

Soft reset is initiated by writing a â1â to bit 0 of the HW_CFG register (SRST). This self-clearing bit will

return to â0â after approximately 2 Î¼s, at which time the Soft Reset is complete. Soft reset does not

clear control register bits marked as NASR.

APPLICATION NOTE: Under normal conditions, the READY bit in PMT_CTRL will be set (high -â1â) immediately,

(within 2Î¼s). If the software driver polls this bit and it is not set within 100ms, then an error

condition occurred.

3.11.5 PHY Reset Timing

The following sections and tables specify the operation and time required for the internal PHY to

become operational after various resets or when returning from the reduced power state.

3.11.5.1

PHY Soft Reset via PMT_CTRL bit 10 (PHY_RST)

The PHY soft reset is initiated by writing a â1â to bit 10 of the PMT_CTRL register (PHY_RST). This

self-clearing bit will return to â0â after approximately 100 Î¼s, at which time the PHY reset is complete.

3.11.5.2

PHY Soft Reset via PHY Basic Control Register (PHY Reg. 0.15)

The PHY Reg. 0.15 Soft Reset is initiated by writing a â1â to bit 15 of the PHYâs Basic Control Register.

This self-clearing bit will return to â0â at which time the PHY reset is complete.

SMSC LAN9117

DATASHEET

Revision 1.5 (07-11-08)

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