KSZ8041RNL-EVAL Micrel Inc, KSZ8041RNL-EVAL Datasheet

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KSZ8041RNL-EVAL

Manufacturer Part Number
KSZ8041RNL-EVAL
Description
BOARD EVALUATION FOR KSZ8041RNL
Manufacturer
Micrel Inc
Datasheets

Specifications of KSZ8041RNL-EVAL

Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Other names
576-3863
Part Number
KSZ8031RNL
KSZ8021RNL
KSZ8051MNL
KSZ8051RNL
KSZ8051MLL
KSZ8051FLL
Introduction
This application note is written for Micrel customers who
currently utilize the KSZ8041NL, KSZ8041MNL, or
KSZ8041 MLL in their board designs.
Micrels KSZ8051 single-port 10/100 PHY transceivers
leverage our industry-leading physical layer technology to
reduce board real estate, conserve power, and reduce
overall costs. Additional power saving features have been
added to the KSZ8051. The KSZ8051 products provide a
smooth migration path from existing KSZ8041 PHY
transceivers.
Datasheets and support documentation can be found on
Micrel’s web site at: www.micrel.com.
KSZ8051 Family
New and Revised KSZ8051 Family Features
The following are the features that have been added or
changed in the KSZ8051 family, compared to the
KSZ8041 family:
• Process technology changed to 0.13µm
• On-chip termination resistors for the differential pairs
• Power down and power saving modes, including
• LinkMD
• Parametric NAND Tree support for fault detection
• Single 3.3V power supply with VDD I/O options for
• Built-in 1.2V regulator for core
• Unicast strap programmable.
LinkMD is a registered trademark of Micrel, Inc.
December 2010
Energy Detect Down, Power Down, and Slow Oscillator
of faulty copper cabling
between chip I/Os and board
1.8V, 2.5V, or 3.3V
Micrel Inc. • 2180 Fortune Drive • San Jose, CA 95131 • USA • tel +1 (
®
TDR-based cable diagnostics for identification
Line
10Base-T
100Base-TX
LinkMD
Support
100Base-FX
®
MAC
RMII
RMII
MII
RMII
MII
MII
Package
24-Pin QFN (4x4mm)
24-Pin QFN (4x4mm)
32-Pin QFN (5x5mm)
32-Pin QFN (5x5mm)
48-Pin LQFP (7x7mm)
48-Pin LQFP (7x7mm)
Table 1. KSZ8051 Family
Temp. Range
0˚C to 70˚C; -40˚C to +85˚C
0˚C to 70˚C; -40˚C to +85˚C
0˚C to 70˚C; -40˚C to +85˚C
0˚C to 70˚C; -40˚C to +85˚C
0˚C to 70˚C; -40˚C to +85˚C
0˚C to 70˚C; -40˚C to +85˚C
KSZ8051 Applications
Some of the applications that are supported by the new
features provided by the KSZ8051 family include the
following:
• IP set-top box
• IP TV
• Game console
• IP phone
• Printer
The KSZ8051 family consists of five parts:
• KSZ8021RNL
• KSZ8031 RNL
• KSZ8051MNL
• KSZ8051RNL
• KSZ8051MLL
• KSZ8051FLL
Table 1 summarizes the primary functional differences
between the members of the KSZ8051 family.
408
) 944-0800 • fax + 1 (408) 474-1000 • http://www.micrel.com
Migrating to KSZ8051 Family PHY
Transceivers
AN-143
Description
C-temp; I-temp; Default: 25MHz in
C-temp; I-temp; Default: 50MHz in
C-temp; I-temp
C-temp; I-temp
C-temp; I-temp
C-temp; I-temp
M9999-120610-A

Related parts for KSZ8041RNL-EVAL

KSZ8041RNL-EVAL Summary of contents

Page 1

... MII KSZ8051FLL 100Base-FX MII LinkMD is a registered trademark of Micrel, Inc. Micrel Inc. • 2180 Fortune Drive • San Jose, CA 95131 • USA • tel +1 ( December 2010 Migrating to KSZ8051 Family PHY KSZ8051 Applications Some of the applications that are supported by the new features provided by the KSZ8051 family include the following: • ...

Page 2

... This section compares the features of the KSZ8041 and KSZ8051 family PHY transceivers. Table 2 compares the power and package of the KSZ8041 and KSZ8051 family PHY transceivers. Power and Package Comparison Feature KSZ8041NL KSZ8041RNL KSZ8041MLL Process Technology 0.18µm VDDA (Analog Supply 3.3V ...

Page 3

... Same TX/RX pairs MLL/NL/RNL/TL: 10/100BaseT Media Interfaces FTL: 100BaseFX Table 5 compares the MAC-side PHY layer features of the KSZ8041 and KSZ8051 family PHY transceivers. Feature KSZ8041NL KSZ8041RNL KSZ8041MLL Input Reference Clock 25MHz RMII Clock Output 8041RNL Only MII back-to-back mode TL/FTL/MLL (only) ...

Page 4

... Micrel, Inc. Table 6 compares other PHY layer features of the KSZ8041 and KSZ8051 family PHY transceivers. Feature KSZ8041NL KSZ8041RNL KSZ8041MLL PHY Address 0 Broadcast (only) NAND Tree No RMII Signal Diagram The KSZ8051RNL RMII pin connections to the MAC are shown in the following figures for 25MHz Clock Mode and 50MHz Clock Mode ...

Page 5

Micrel, Inc. Schematic Differences This section describes the schematic differences between the KSZ8041 and KSZ8051 families. Figure 3 illustrates the copper port connections for the KSZ8041 family PHY transceivers. Figure 4 illustrates the copper port connections for the KSZ8051 family ...

Page 6

Micrel, Inc. Figure 5 illustrates the capacitive (AC) coupling for the KSZ8041 family PHY transceivers. Figure 5. KSZ8041 Capacitive (AC) Coupling for Copper Ports Figure 6 illustrates the capacitive (AC) coupling for the KSZ8051 family PHY transceivers. Figure 6. KSZ8051 ...

Page 7

Micrel, Inc. Register Differences Between KSZ0841NL/RNL/MLL and KSZ8051MNL/RNL/MLL This section identifies the differences between the registers used by the KSZ8051 and KSZ8041 family PHY transceivers. Register Map Differences Between KSZ8041NL/RNL/MLL and KSZ8051MNL/RNL/MLL Table 7 lists the differences between the register ...

Page 8

Micrel, Inc. Register 11h—Added for KSZ8051MNL/RNL/MLL Table 9 lists the functions for Register 11h (AFE Control 1), which have been added to the KSZ8051MNL/RNL/MLL. Address Name Description Register 11h – AFE Control 1 11.15:6 Reserved 11.5 Slow Oscillator Slow Oscillator ...

Page 9

Micrel, Inc. Address Name Register 17h – Operation Mode Strap Status 17.15:13 PHYAD[2:0] strap- in status 17.12:10 Reserved 17.9 B-CAST_OFF strap-in status 17.8 Reserved 17.7 MII B-to-B strap-in status 17.6 RMII B-to-B strap- in status Reserved (KSZ8051MLL) 17.5 NAND Tree ...

Page 10

Micrel, Inc. Register 1Dh—Added for KSZ8051MNL/RNL (exists in KSZ8041MLL and KSZ8051MLL) Table 11 lists the functions for Register 1Dh , which has been added to the KSZ8051MNL/RNL. Note: This register and its functions already exist for the KSZ8041MLL, except where ...

Page 11

Micrel, Inc. Address Name Description 1e.2:0 Operation [000] = still in auto-negotiation Mode [001] = 10Base-T half-duplex Indication [010] = 100Base-TX half-duplex [011] = reserved [100] = reserved [101] = 10Base-T full-duplex [110] = 100Base-TX full-duplex [111] = reserved Register ...

Page 12

Micrel, Inc. Pin Differences Between KSZ8041NL and KSZ8051MNL This section provides information about pin changes that have occurred with the KSZ8051MNL. Table 14 identifies the pin differences between the KSZ8041NL and the KSZ8051MNL. Changes are shown underlined. Pins that are ...

Page 13

... This section provides information about pin changes for migrating board designs from the KSZ8041RNL to the KSZ8051RNL. Table 15 identifies the pin differences between the KSZ8041RNL and the KSZ8051RNL. Changes are shown underlined. Pins that are not listed are the same for both products. ...

Page 14

... Ipu/O NWAYEN 31 LED1 / Ipu/O SPEED Table 15. Pin Differences (KSZ8041RNL and KSZ8051RNL) New Strapping Options with KSZ8051MNL/RNL The KSZ8051MNL/RNL products provide the same strapping options as the KSZ8041NL/RNL. In addition, Table 16 describes the new strapping options available with the KSZ8051MNL/RNL. Pin Number Pin Name ...

Page 15

Micrel, Inc. Pin KSZ8041MLL Number Pin Name Type 28 RXC O 31 VDD_1 INTRP Opu 42 LED0 / Ipu/O NWAYEN 43 LED1 / Ipu/O SPEED Table 17. Pin Differences (KSZ8041MLL and KSZ8051MLL) New Strapping Options with KSZ8051MLL The ...

Page 16

Micrel, Inc. Description of Differences Core Power 1.8 to 1.2V The KSZ8051 uses 1.2V low core power for the low power consumption. Power is supplied by an internal LDO. IO Power The KSZ8051 support Digital IO power of 1.8, 2.5 ...

Page 17

Micrel, Inc. Revision History Revision Date Summary of Changes 0.1 9/1/10 Application note created. 1.0 12/6/10 Various fixes, added power comparison table December 2010 17 Application Note 143 M9999-120610-A ...

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