RTL8152B-VB-CG_技术文档

RTL8152B-VB-CG

INTEGRATED 10/100M ETHERNET CONTROLLER

FOR USB APPLICATIONS

DATASHEET

(CONFIDENTIAL: Development Partners Only)

Rev. 1.0

21 March 2013

Track ID: JATR-8275-15

Realtek Semiconductor Corp.

No. 2, Innovation Road II, Hsinchu Science Park, Hsinchu 300, Taiwan

Tel.: +886-3-578-0211. Fax: +886-3-577-6047

www.realtek.com

RTL8152B-VB

Datasheet

COPYRIGHT

transmitted, transcribed, stored in a retrieval system, or translated into any language in any form or by any

means without the written permission of Realtek Semiconductor Corp.

DISCLAIMER

Realtek provides this document ‘as is’, without warranty of any kind. Realtek may make improvements

and/or changes in this document or in the product described in this document at any time. This document

could include technical inaccuracies or typographical errors.

TRADEMARKS

Realtek is a trademark of Realtek Semiconductor Corporation. Other names mentioned in this document

are trademarks/registered trademarks of their respective owners.

LICENSE

This product is covered by one or more of the following patents: US5,307,459, US5,434,872,

US5,732,094, US6,570,884, US6,115,776, and US6,327,625.

USING THIS DOCUMENT

This document is intended for the software engineer’s reference and provides detailed programming

information.

Though every effort has been made to ensure that this document is current and accurate, more information

may have become available subsequent to the production of this guide.

REVISION HISTORY

Revision

Release Date Summary

1.0

2013/03/21 First release.

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Datasheet

Table of Contents

1.

2.

3.

4.

GENERAL DESCRIPTION..............................................................................................................................................1

FEATURES.........................................................................................................................................................................3

SYSTEM APPLICATIONS...............................................................................................................................................3

PIN ASSIGNMENTS .........................................................................................................................................................3

4.1.

PACKAGE IDENTIFICATION...........................................................................................................................................3

5.

PIN DESCRIPTIONS.........................................................................................................................................................4

5.1.

POWER MANAGEMENT PIN ..........................................................................................................................................4

USB INTERFACE PINS ..................................................................................................................................................4

TRANSCEIVER INTERFACE PINS....................................................................................................................................4

CLOCK PINS .................................................................................................................................................................5

LDO REGULATOR AND REFERENCE PINS.....................................................................................................................5

SPI FLASH PINS ...........................................................................................................................................................5

LED PINS.....................................................................................................................................................................6

POWER AND GROUND PINS ..........................................................................................................................................6

GPIO PIN.....................................................................................................................................................................6

5.2.

5.3.

5.4.

5.5.

5.6.

5.7.

5.8.

5.9.

6.

FUNCTIONAL DESCRIPTION.......................................................................................................................................7

6.1.

USB INTERFACE ..........................................................................................................................................................7

6.1.1. USB Configurations................................................................................................................................................7

6.1.2. Endpoint 0 ..............................................................................................................................................................7

6.1.3. Endpoint 1 Bulk-IN.................................................................................................................................................7

6.1.4. Endpoint 2 Bulk-OUT.............................................................................................................................................7

6.1.5. Endpoint 3 Interrupt-IN..........................................................................................................................................7

6.2.

CUSTOMIZABLE LED CONFIGURATION........................................................................................................................8

6.2.1. LED Blinking Frequency Control...........................................................................................................................9

6.3.

PHY TRANSCEIVER ...................................................................................................................................................10

6.3.1. PHY Transmitter...................................................................................................................................................10

6.3.2. PHY Receiver .......................................................................................................................................................10

6.3.3. Link Down Power Saving Mode...........................................................................................................................10

6.4.

6.5.

6.6.

6.7.

6.8.

6.9.

6.10.

6.11.

6.12.

6.13.

SPI FLASH..................................................................................................................................................................11

ENERGY EFFICIENT ETHERNET (EEE)........................................................................................................................11

LINK POWER MANAGEMENT (LPM) ..........................................................................................................................11

LAN DISABLE MODE.................................................................................................................................................12

POWER MANAGEMENT...............................................................................................................................................12

PROTOCOL OFFLOAD .................................................................................................................................................13

XTAL-LESS WAKE-ON-LAN....................................................................................................................................13

WAKE PACKET DETECTION (WPD) ...........................................................................................................................14

‘REALWOW!’ (WAKE-ON-WAN) TECHNOLOGY ......................................................................................................14

ALWAYS ON ALWAYS CONNECTED ...........................................................................................................................14

7.

8.

LDO REGULATOR.........................................................................................................................................................14

CHARACTERISTICS......................................................................................................................................................15

8.1.

ABSOLUTE MAXIMUM RATINGS ................................................................................................................................15

RECOMMENDED OPERATING CONDITIONS .................................................................................................................15

CRYSTAL REQUIREMENTS..........................................................................................................................................16

OSCILLATOR REQUIREMENTS ....................................................................................................................................16

ENVIRONMENTAL CHARACTERISTICS ........................................................................................................................16

DC CHARACTERISTICS...............................................................................................................................................17

REFLOW PROFILE RECOMMENDATIONS .....................................................................................................................17

8.2.

8.3.

8.4.

8.5.

8.6.

8.7.

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8.8.

AC CHARACTERISTICS...............................................................................................................................................18

8.8.1. SPI Flash Commands ...........................................................................................................................................18

8.8.2. SPI Flash Interface Timing Sequences.................................................................................................................18

8.8.3. SPI Flash Type Supported....................................................................................................................................20

9.

MECHANICAL DIMENSIONS......................................................................................................................................21

ORDERING INFORMATION...................................................................................................................................22

10.

List of Tables

TABLE 1. POWER MANAGEMENT PIN ...........................................................................................................................................4

TABLE 2. USB INTERFACE PINS ...................................................................................................................................................4

TABLE 3. TRANSCEIVER INTERFACE PINS ....................................................................................................................................4

TABLE 4. CLOCK PINS..................................................................................................................................................................5

TABLE 5. LDO REGULATOR AND REFERENCE PINS .....................................................................................................................5

TABLE 6. SPI FLASH PINS ............................................................................................................................................................5

TABLE 7. LED PINS......................................................................................................................................................................6

TABLE 8. POWER AND GROUND PINS ...........................................................................................................................................6

TABLE 9. GPIO PIN......................................................................................................................................................................6

TABLE 10. LED SELECT ................................................................................................................................................................8

TABLE 11. CUSTOMIZED LEDS .....................................................................................................................................................8

TABLE 12. LED FEATURE CONTROL-1..........................................................................................................................................8

TABLE 13. LED FEATURE CONTROL-2..........................................................................................................................................8

TABLE 14. LED OPTION 1 & OPTION 2 SETTINGS .........................................................................................................................9

TABLE 15. LED BLINKING FREQUENCY CONTROL........................................................................................................................9

TABLE 16. SPI FLASH INTERFACE ...............................................................................................................................................11

TABLE 17. ABSOLUTE MAXIMUM RATINGS ................................................................................................................................15

TABLE 18. RECOMMENDED OPERATING CONDITIONS .................................................................................................................15

TABLE 19. CRYSTAL REQUIREMENTS..........................................................................................................................................16

TABLE 20. OSCILLATOR REQUIREMENTS ....................................................................................................................................16

TABLE 21. ENVIRONMENTAL CHARACTERISTICS ........................................................................................................................16

TABLE 22. DC CHARACTERISTICS...............................................................................................................................................17

TABLE 23. REFLOW PROFILE RECOMMENDATIONS .....................................................................................................................17

TABLE 24. SPI FLASH COMMANDS..............................................................................................................................................18

TABLE 25. SPI FLASH TYPE SUPPORTED .....................................................................................................................................20

TABLE 26. ORDERING INFORMATION ..........................................................................................................................................22

List of Figures

FIGURE 1. PIN ASSIGNMENTS .......................................................................................................................................................3

FIGURE 2. LED BLINKING FREQUENCY AND DUTY CYCLE..........................................................................................................9

FIGURE 3. WREN/WRDI TIMING SEQUENCE ............................................................................................................................18

FIGURE 4. READ TIMING SEQUENCE ..........................................................................................................................................18

FIGURE 5. PAGE PROGRAM TIMING SEQUENCE..........................................................................................................................19

FIGURE 6. SECTOR/BLOCK ERASE TIMING SEQUENCE ...............................................................................................................19

FIGURE 7. CHIP ERASE TIMING SEQUENCE ................................................................................................................................19

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1. General Description

The Realtek RTL8152B-VB-CG 10/100M Ethernet controller combines an IEEE 802.3u compliant

Media Access Controller (MAC), USB bus controller, and embedded memory. A linear regulator (LDO)

is incorporated for reduced BOM cost.

With state-of-the-art DSP technology and mixed-mode signal technology, the RTL8152B-VB offers

high-speed transmission over CAT 5 UTP cable or CAT 3 UTP (10Mbps only) cable. Functions such as

Crossover Detection and Auto-Correction, polarity correction, adaptive equalization, cross-talk

cancellation, echo cancellation, timing recovery, and error correction are implemented to provide robust

transmission and reception capabilities. The RTL8152B-VB features embedded One-Time-Programmable

(OTP) memory.

Advanced Configuration Power management Interface (ACPI)—power management for modern

operating systems that are capable of Operating System-directed Power Management (OSPM)—is

supported to achieve the most efficient power management possible. In addition to the ACPI feature,

remote wake-up (including AMD Magic Packet and Microsoft Wake-Up Frame) is supported in both

ACPI and APM (Advanced Power Management) environments.

The RTL8152B-VB supports Microsoft Wake Packet Detection (WPD) to provide Wake-Up Frame

information to the OS, e.g., PatternID, OriginalPacketSize, SavedPacketSize, SavedPacketOffset, etc.

WPD helps prevent unwanted/unauthorized wake-up of a sleeping computer.

The RTL8152B-VB supports ‘RealWoW!’ technology that enables remote wake-up of a sleeping PC

through the Internet. This feature allows PCs to reduce power consumption by remaining in low power

sleeping state until needed.

Note: The ‘RealWoW!’service requires registration on first time use.

The RTL8152B-VB is fully compliant with Microsoft NDIS5, NDIS6 (IPv4, IPv6, TCP, UDP)

Checksum features, and supports IEEE 802 IP Layer 2 priority encoding and IEEE 802.1Q Virtual

bridged Local Area Network (VLAN). The above features contribute to lowering CPU utilization,

especially benefiting performance when in operation on a network server.

The RTL8152B-VB supports Protocol offload. It offloads some of the most common protocols to NIC

hardware in order to prevent spurious wake-up and further reduce power consumption. The

RTL8152B-VB can offload ARP (IPv4) and NS (IPv6) protocols while in the D3 power saving state.

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The RTL8152B-VB supports the ECMA (European Computer Manufacturers Association) proxy for

sleeping hosts standard. The standard specifies maintenance of network connectivity and presence via

proxies in order to extend the sleep duration of higher-powered hosts. It handles some network tasks on

behalf of the host, allowing the host to remain in sleep mode for longer periods. Required and optional

behavior of an operating proxy includes generating reply packets, ignoring packets, and waking the host.

The RTL8152B-VB supports IEEE 802.3az-2010, also known as Energy Efficient Ethernet (EEE). IEEE

802.3az operates with the IEEE 802.3 Media Access Control (MAC) Sublayer to support operation in

Low Power Idle mode. When the Ethernet network is in low link utilization, EEE allows systems on both

sides of the link to save power.

The device also features USB 2.0 technology. It provides higher bandwidth and improved protocols for

data exchange between the host and the device. In addition, USB 2.0 offers a more aggressive power

management feature that enables selective suspend to save energy.

The RTL8152B-VB is suitable for multiple market segments and emerging applications, such as desktop,

mobile, workstation, server, communications platforms, docking station, and embedded applications.

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2. Features

Hardware

Software Offload

Integrated 10/100M transceiver

Auto-Negotiation with Next Page capability

Supports USB 2.0 and 1.1

Microsoft NDIS5, NDIS6 Checksum

Offload (IPv4, IPv6, TCP, UDP) and

Segmentation Task-offload (Large send v1

and Large send v2) support

IEEE

Supports pair swap/polarity/skew correction

Crossover Detection & Auto-Correction

Supports Full Duplex flow control

(IEEE 802.3x)

Supports Wake-On-LAN and ‘RealWoW!’

(Wake-On-WAN) Technology (see note 1)

Fully compliant with IEEE 802.3,

IEEE 802.3u

Supports ECMA-393 ECMA ProxZzzy

Standard for sleeping hosts (see note 1)

Supports IEEE 802.1P Layer 2 Priority

Encoding

XTAL-Less Wake-On-LAN

Supports IEEE 802.1Q VLAN tagging

Supports IEEE 802.3az-2010 (EEE)

Supports 25MHz or 48MHz external clock

(from oscillator or system clock source)

Supports power down/link down power

Microsoft AOAC (Always On Always

Connected)

saving

Transmit/Receive on-chip buffer support

Embedded OTP memory

Supports 16-set 128-byte Wake-Up Frame

pattern exact matching

Built-in linear regulator (LDO)

Supports Customizable LEDs

Supports link change wake up

Supports Microsoft WPD (Wake Packet

Detection)

Controllable LED Blinking Frequency and

Duty Cycle

Supports Protocol Offload (ARP & NS)

Supports hardware CRC (Cyclic

Intel CPPM (Converged Platform Power

Management)

Redundancy Check) function

LAN disable with GPIO pin

Supports LPM (Link Power Management)

SPI Flash Interface

Supports L1 with 3ms BESL

Supports selective suspend

Note 1. Select between RealWoW! or ECMA, only one

feature can be active at a time.

Supports CDC-ECM

24-pin QFN ‘Green’ package

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3. System Applications

USB 10/100M Ethernet on Motherboard, Dongle, Notebook, Docking station, or Embedded system

4. Pin Assignments

Figure 1. Pin Assignments

4.1. Package Identification

Green package is indicated by the ‘G’ in GXXXV (Figure 1). The version number is shown in the

location marked ‘V’.

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5. Pin Descriptions

The signal type codes below are used in the following tables:

I: Input

O: Output

P: Power

5.1. Power Management Pin

Table 1. Power Management Pin

Symbol

Type

Pin No Description

Power Management Event Output Pin (Active Low), minimum 7ms,

maximum 9ms.

LANWAKEB

O

19

5.2. USB Interface Pins

Table 2. USB Interface Pins

Symbol

U2DP

Type

IO

Pin No Description

8

7

USB 2.0/USB 1.1 Differential Signal Pair.

U2DM

IO

5.3. Transceiver Interface Pins

Table 3. Transceiver Interface Pins

Symbol

Type

Pin No Description

MDIP0

IO

2

3

4

5

In MDI mode, this pair acts as the BI_DA+/- pair, and is the transmit pair in

10Base-T and 100Base-TX.

In MDI crossover mode, this pair acts as the BI_DB+/- pair, and is the receive

pair in 10Base-T and 100Base-TX.

MDIN0

MDIP1

MDIN1

IO

In MDI mode, this pair acts as the BI_DB+/- pair, and is the receive pair in

10Base-T and 100Base-TX.

In MDI crossover mode, this pair acts as the BI_DA+/- pair, and is the

transmit pair in 10Base-T and 100Base-TX.

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5.4. Clock Pins

Table 4. Clock Pins

Pin No Description

Symbol

Type

I

CKXTAL1

CKXTAL2

21

22

Input of 25MHz Clock Reference.

Output of 25MHz Clock Reference.

Input of 25MHz or 48MHz External Clock Source.

Power-Up Strapping Pin.

IO

XTALDET/SPISDI

I

18

Pull High: 25MHz clock source

Pull Low: 48MHz clock source

Note: When a 25MHz clock is used the XTALDET pin must be pulled high by a resistor during power-up. When a 48MHz

clock is used the XTALDET pin must be pulled low by a resistor during power-up.

5.5. LDO Regulator and Reference Pins

Table 5. LDO Regulator and Reference Pins

Symbol

Type

Pin No Description

AVDD33

P

10

23

12

24

Linear Regulator (LDO) 3.3V Output.

Note: The embedded LDO is designed for RTL8152B-VB internal use only. Do

not provide this power source to other devices.

AVDD10

P

I

Linear Regulator (LDO) 1.05V Output.

Note: The embedded LDO is designed for RTL8152B-VB internal use only. Do

not provide this power source to other devices.

DVDD10_UPS

RSET

Linear Regulator (LDO) 1.05V Output.

Note: The embedded LDO is designed for RTL8152B-VB internal use only. Do

not provide this power source to other devices.

Reference. External resistor reference.

5.6. SPI Flash Pins

Table 6. SPI Flash Pins

Symbol

Type

Pin No Description

SPICSB

O

I

15

20

18

17

SPI Flash Chip Select.

SPISDO

Input from SPI Flash Serial Data Output Pin.

Output to SPI Flash Serial Data Input Pin.

SPI Flash Serial Data Clock.

SPISDI/XTALDET

SPISCK

O

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5.7. LED Pins

Table 7. LED Pins

Pin No Description

Symbol

LED0

Type

O

15

17

See section 6.2 Customizable LED Configuration, page 8 for details.

LED1

O

Note: During power down mode, the LED signals are logic high.

5.8. Power and Ground Pins

Table 8. Power and Ground Pins

Symbol

Type

Pin No Description

VDD5

P

11

1, 10

13

23

16

12

9

Analog 5.0V Power Supply.

AVDD33

DVDD33

AVDD10

DVDD10

DVDD10_UPS

U2VDD10

U2GND

Analog 3.3V Power Supply.

Digital 3.3V Power Supply.

Analog 1.05V Power Supply.

Digital 1.05V Power Supply.

Digital 1.05V Uninterruptible Power Supply.

USB 2.0/USB 1.1 Digital 1.05V Power Supply.

USB 2.0/USB 1.1 Ground.

6

GND

25

Ground (Exposed Pad).

Note: Refer to the latest schematic circuit for correct configuration.

5.9. GPIO Pin

Table 9. GPIO Pin

Symbol

Type

Pin No Description

14 General Purpose Input/Output Pin.

GPIO

IO

Link OK Feature: Output Pin (Active High)

Power Saving Feature: Output Pin (Active Low)

LAN Disable Mode: Input Pin (Active Low)

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6. Functional Description

6.1. USB Interface

The SIE (Serial Interface Engine) employs a robust hardwired USB protocol implementation so that the

entire USB interface operation can be done without firmware intervention. For all three types of End

Points (Bulk-IN, Bulk-OUT, and Interrupt-IN), appropriate responses and handshake signals are

generated by the SIE. The SIE analog transceiver complies fully with driver and receiver characteristics

defined in USB Specification Rev. 2.0

6.1.1. USB Configurations

The RTL8152B-VB supports two networking configurations, ECM (Ethernet Networking Control Model)

configuration, and in-house configuration. The ECM configuration complies with CDC-ECM, and is a

general Ethernet networking model that enables network communication without installing additional

vendor specific drivers. The in-house configuration requires a vendor specific driver to support enhanced

features and optimized performance.

6.1.2. Endpoint 0

All USB devices support a common access mechanism for accessing information through this control

pipe. Associated with the control pipe at endpoint 0 is the information required to completely describe the

USB device. This pipe also provides the register read and write to the RTL8152B-VB.

6.1.3. Endpoint 1 Bulk-IN

The maximum Bulk-IN packet size is 512 bytes. Each Ethernet packet is transferred to the HOST by this

Endpoint. If the Ethernet packet is larger than 512 bytes, the RTL8152B-VB splits the Ethernet packet

into multiples of 512 bytes. The HOST treats USB packets that are less than 512 bytes or are equal to

zero as End of Ethernet packets.

6.1.4. Endpoint 2 Bulk-OUT

The HOST sends the USB packet to Ethernet. If the Ethernet packet is larger than 512 bytes, the Host will

send the Ethernet packet in multiples of 512 bytes. A USB packet that is less than 512 bytes or is equal to

zero is treated as an End of Ethernet packet.

The Ethernet packet (containing multiple USB packets) will be queued in the TX FIFO and transmitted

when possible. If the Ethernet packet is transmitted without error, the TX FIFO space that was occupied

by the transmitted Ethernet packet will be released. If the 2K TX FIFO is full, the RTL8152B-VB will

respond with a NYET when the host tries to Bulk-OUT more USB packets.

It is possible to have multiple Ethernet packets in the TX FIFO simultaneously. If an Ethernet packet is to

be transmitted but experiences collisions more than 16 times (default), this is called a transmit abort and

the packet will be skipped for transmission by the RTL8152B-VB.

6.1.5. Endpoint 3 Interrupt-IN

The Interrupt Endpoint (EP3) can be used to poll the current link speed and link ok status of the

RTL8152B-VB.

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6.2. Customizable LED Configuration

The RTL8152B-VB supports customizable LED operation modes via OCP register offset 0xDD90h.

Table 10 describes the different LED actions.

Table 10. LED Select

Bit

7:4

3:0

Symbol

LEDSEL1

LEDSEL0

RW

Description

LED Select for PINLED1

LED Select for PINLED0

Configure OCP register offset 0xDD90h to support your own LED signals. For example, if the value in

the OCP offset 0xDD90 is 0xA1h (10100001b), the LED actions are:

• LED 0: On only in 10M mode, with no blinking during TX/RX

• LED 1: On only in 100M mode, with TX/RX blinking

Table 11. Customized LEDs

LINK

ACT

-

Speed

LED 0

LED 1

Link 10M

Bit 0

Link 100M

Bit 1

Bit 3

Bit 7

Bit 4

Bit 5

Table 12. LED Feature Control-1

Feature Control

Bit12

Bit13

Bit14

Bit15

Indicates Option 1 of Table 14

is selected

0

LED0 Low Active

LED1 Low Active

RSVD

Indicates Option 2 of Table 14

is selected

1

LED0 High Active

LED1 High Active

RSVD

Table 13. LED Feature Control-2

ACT=1

LED Pin

LINK=0

LINK>0

ACT=0

Floating

All Speed ACT

Selected Speed LINK Option 1 (see Table 14): Selected Speed LINK+ Selected Speed ACT

Option 2 (see Table 14): Selected Speed LINK+ All Speed ACT

Note 1: ACT means blinking TX and RX. LINK indicates Link 10M and Link 100M.

Note 2: There is a special mode: LED OFF ModeÆ Set all bits to 0.

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Table 14. LED Option 1 & Option 2 Settings

Link Bit

100

Active Bit

Description

10

0

Link

Option 1 LED Activity

Option 2 LED Activity

0

1

0

1

0

1

0

1

0

1

0

1

LED Off

0

-

Act₁₀+Act₁₀₀

0

Link₁₀₀

-

0

Link₁₀₀

Act₁₀₀

Act₁₀+Act₁₀₀

1

Link₁₀

-

1

Link₁₀

Act₁₀

Act₁₀+Act₁₀₀

-

1

Link₁₀+Link₁₀₀

-

1

Act₁₀+Act₁₀₀

Note:

Act₁₀= LED blinking when Ethernet packets transmitted/received at 10Mbps.

Act₁₀₀= LED blinking when Ethernet packets transmitted/received at 100Mbps.

Link₁₀= LED lit when Ethernet connection established at 10Mbps.

Link₁₀₀= LED lit when Ethernet connection established at 100Mbps.

6.2.1. LED Blinking Frequency Control

The RTL8152B-VB also supports LED blinking frequency and duty cycle control via OCP register offset

DD92h to control user’s LED blinking frequency and duty cycle (see Table 15). For example, if the OCP

register offset 0xDD92 is 0x0B (00001011b), the LED blinking frequency is 80ms and duty cycle is 75%.

The LED state is shown in Figure 2 (assumes the LED is low active).

Table 15. LED Blinking Frequency Control

Bit

RW

Description

LED Blinking Frequency

0: 240ms

3:2

RW

1: 160ms (Default)

2: 80ms

3: Link Speed Dependent

LED Blinking Duty Cycle

0: 12.5%

1:0

RW

1: 25%

2: 50% (Default)

3: 75%

Figure 2. LED Blinking Frequency and Duty Cycle

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6.3. PHY Transceiver

Based on state-of-the-art DSP technology and mixed-mode signal processing technology, the

RTL8152B-VB operates at 10/100Mbps over standard CAT.5 UTP cable (100Mbps), and CAT.3 UTP

cable (10Mbps).

6.3.1. PHY Transmitter

MII (100Mbps) Mode

The transmitted 4-bit nibbles (TXD[3:0]) from the MAC, clocked at 25MHz (TXC), are converted into

5B symbol code through 4B/5B coding technology, then through scrambling and serializing, are

converted to 125MHz NRZ and NRZI signals. The NRZI signals are passed to the MLT3 encoder, then to

the D/A converter and transmitted onto the media.

MII (10Mbps) Mode

The transmitted 4-bit nibbles (TXD[3:0]) from the MAC, clocked at 2.5MHz (TXC), are serialized into

10Mbps serial data. The 10Mbps serial data is converted into a Manchester-encoded data stream and is

transmitted onto the media by the D/A converter.

6.3.2. PHY Receiver

MII (100Mbps) Mode

The MLT3 signal is processed with an ADC, equalizer, BLW (Baseline Wander) correction, timing

recovery, MLT3 and NRZI decoder, descrambler, 4B/5B decoder, and is then presented to the MII

interface in 4-bit-wide nibbles at a clock speed of 25MHz.

MII (10Mbps) Mode

The received differential signal is converted into a Manchester-encoded stream first. Next, the stream is

processed with a Manchester decoder and is de-serialized into 4-bit-wide nibbles. The 4-bit nibbles are

presented to the MII interface at a clock speed of 2.5MHz.

6.3.3. Link Down Power Saving Mode

The RTL8152B-VB implements link-down power saving mode, greatly improving power consumption

when the network cable is disconnected. The RTL8152B-VB automatically enters link down power

saving mode within three seconds after the cable is disconnected from it. Once it enters link down power

saving mode, it transmits normal link pulses on its TX pins and continues to monitor the RX pins to

detect incoming signals. After it detects an incoming signal, it wakes up from link down power saving

mode and operates in normal mode according to the result of the connection.

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6.4. SPI Flash

SPI (Serial Peripheral Interface) Flash is enabled by the RTL8152B-VB through the Chip Select pin, and

accessed via a 3-wire interface consisting of Serial Data Input (SI), Serial Data Output (SO), and Serial

Clock (SCK). The SPI flash utilizes an 8-bit instruction register. All instructions, addresses, and data are

transferred with the MSB first and start with a high-to-low transition.

Compared to a parallel bus interface, the Serial Peripheral Interface provides simpler wiring and much

less interaction (crosstalk) among the conductors in the cable. This minimizes the number of conductors,

pins, and the IC package size, reducing the cost of making, assembling, and testing the electronics.

Table 16. SPI Flash Interface

SPI Flash

SO

Description

Input Data Bus.

SI

Output Data Bus.

SCK

CS

SPI Flash Serial Data Clock.

SPI Flash Chip Select.

6.5. Energy Efficient Ethernet (EEE)

The RTL8152B-VB supports IEEE 802.3az-2010, also known as Energy Efficient Ethernet (EEE), at

10Mbps and 100Mbps. It provides a protocol to coordinate transitions to/from a lower power

consumption level (Low Power Idle mode) based on link utilization. When no packets are being

transmitted, the system goes to Low Power Idle mode to save power. Once packets need to be

transmitted, the system returns to normal mode, and does this without changing the link status and

without dropping/corrupting frames.

To save power, when the system is in Low Power Idle mode, most of the circuits are disabled, however,

the transition time to/from Low Power Idle mode is kept small enough to be transparent to upper layer

protocols and applications.

EEE also specifies a negotiation method to enable link partners to determine whether EEE is supported

and to select the best set of parameters common to both devices.

Refer to http://www.ieee802.org/3/az/index.html for more details.

6.6. Link Power Management (LPM)

The RTL8152B-VB supports Link Power Management (LPM). It provides an efficient way to manage

bus and system power via hosts and hubs. It implements a power sleep state that reduces power

consumption by providing faster suspend and resume times. The four power management states for USB

are L0 (On), L1 (Sleep), L2 (Suspend) and L3 (Off). To reduce power consumption when the system is in

Low Power State, some of the circuits are disabled.

Refer to http://www.usb.org/developers/docs/.

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Datasheet

6.7. LAN Disable Mode

The RTL8152B-VB supports ‘LAN Disable Mode’, which uses an external signal to control whether the

NIC is enabled or disabled.

6.8. Power Management

The RTL8152B-VB complies with ACPI (Rev 1.0, 1.0b, 2.0), Network Device Class Power Management

Reference Specification (V1.0a), such as to support an Operating System-directed Power Management

(OSPM) environment.

The RTL8152B-VB can monitor the network for a Wake-Up Frame or a Magic Packet, and notify the

system via the USB interface when such a packet or event occurs. The system is then restored to a normal

state to process incoming jobs.

When the RTL8152B-VB is in power down mode:

• The RX state machine is stopped. The RTL8152B-VB monitors the network for wake-up events such

as a Magic Packet and Wake-Up Frame in order to wake up the system. When in power down mode,

the RTL8152B-VB will not reflect the status of any incoming packets in the ISR register and will not

receive any packets into the RX on-chip buffer.

• The on-chip buffer status and packets that have already been received into the RX on-chip buffer

before entering power down mode are held by the RTL8152B-VB.

• Transmission is stopped. USB transactions are stopped. The TX on-chip buffer is held.

• After being restored to D0 state, the RTL8152B-VB transmits data that was not moved into the TX

on-chip buffer during power down mode. Packets that were not transmitted completely last time are

re-transmitted.

Magic Packet Wake-Up occurs only when the following conditions are met:

• The destination address of the received Magic Packet is acceptable to the RTL8152B-VB, e.g., a

broadcast, multicast, or unicast packet addressed to the current RTL8152B-VB adapter.

• The received Magic Packet does not contain a CRC error.

• The Magic Packet pattern matches, i.e., 6 * FFh + MISC (can be none) + 16 * DID (Destination ID)

in any part of a valid Ethernet packet.

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Datasheet

A Wake-Up Frame event occurs only when the following conditions are met:

• The destination address of the received Wake-Up Frame is acceptable to the RTL8152B-VB, e.g., a

broadcast, multicast, or unicast address to the current RTL8152B-VB adapter.

• The received Wake-Up Frame does not contain a CRC error.

• The 16-bit CRC of the received Wake-Up Frame matches the 16-bit CRC of the sample Wake-Up

Frame pattern given by the local machine’s OS. Or, the RTL8152B-VB is configured to allow direct

packet wake-up, e.g., a broadcast, multicast, or unicast network packet.

• The 128-byte of the received Wake-Up Frame matches the 128-byte of the sample Wake-Up Frame

pattern given by the local machine’s OS.

Note 1: 16-bit CRC: The RTL8152B-VB supports 16-set 16-bit CRC wake-up frames (covering 128 mask

bytes from offset 0 to 127 of any incoming network packet). CRC16 polynomial=x¹⁶+x¹²+x⁵+1.

Note 2: 128-byte Wake-Up Frame: The RTL8152B-VB supports 16-set 128-byte wake-up frames. If

enabled, the 16-bit CRC wake-up match will be disabled.

6.9. Protocol Offload

Protocol offload is a task offload supported by Microsoft Windows 7. It maintains a network presence for

a sleeping higher power host. Protocol offload prevents spurious wake-up and further reduces power

consumption. It maintains connectivity while hosts are asleep, including receiving requests from other

nodes on the network, ignoring packets, generating packets while in the sleep state (e.g., the Ethernet

Controller will generate ARP responses if the same MAC and IPv4 address are provided in the

configuration data), and intelligently wake-up host systems. The RTL8152B-VB supports the ECMA

(European Computer Manufacturers Association) specification including proxy configuration and

management, IPv4 ARP, IPv6 NDP, and wake-up packets. The RTL8152B-VB also supports optional

ECMA items such as QoS tagged packets and duplicate address detection.

6.10. XTAL-Less Wake-On-LAN

The RTL8152B-VB supports board level design with an external 25MHz or 48MHz clock source instead

of the crystal.

The external clock source may stop generating the clock when in suspend mode (S3/S4/S5). To support

the Wake-On-LAN function without the external clock source, the RTL8152B-VB will automatically

change its source clock from the external clock to an internal self-oscillating auxiliary clock when it

enters suspend mode. Note that when in suspend mode, the auxiliary clock can establish only a 10Mbps

link and does not support ARP/NS offload and ECMA ProxZzzy.

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Datasheet

6.11. Wake Packet Detection (WPD)

The RTL8152B-VB supports Microsoft Wake Packet Detection (WPD) to provide Wake-Up Frame

information to the OS, e.g., PatternID, OriginalPacketSize, SavedPacketSize, SavedPacketOffset, etc.

WPD helps prevent unwanted/unauthorized wake-up of a sleeping computer.

Refer to the Microsoft Wake Packet Detection (WPD) Interface Specification for details

(http://msdn.microsoft.com/en-us/library/hh440160(v=vs.85).aspx).

6.12. ‘RealWoW!’ (Wake-On-WAN) Technology

The RTL8152B-VB supports Realtek 'RealWoW!' technology that allows the RTL8152B-VB

to send keep alive packets to the Wake Server when the PC is in sleeping mode. Realtek

'RealWoW!' can pass wake-up packets through a NAT (Network Address Translation) device.

This feature allows PCs to reduce power consumption by remaining in low power sleeping

state until needed.

Users can login into the Wake Server via the Internet to wake the selected sleeping PC. Registration of

Account information to the Wake Server is required on first time use.

6.13. Always On Always Connected

The RTL8152B-VB supports Microsoft’s AOAC (Always On Always Connected) model. The AOAC

platform can enter the system state ‘Connected Standby’ and allow the RTL8152B-VB to enter a

low-power state. The RTL8152B-VB will maintain Layer 2 connectivity and generate a wake signal when

one of the following conditions is satisfied:

• Link status becomes ‘connected’

• Link status becomes ‘disconnected’

• Receives a WOL pattern

• Receives a wildcard pattern

7. LDO Regulator

The RTL8152B-VB incorporates three linear Low-Dropout (LDO) regulators that feature high power

supply ripple rejection and low output noise. The RTL8152B-VB embedded LDO regulators do not

require power inductors on the PCB; only an output capacitor between its output and analog ground for

phase compensation, which saves cost and PCB real estate.

The output capacitors (and bypass capacitors) should be placed as close as possible to the power pins for

adequate filtering.

Note 1: The embedded LDO is designed for RTL8152B-VB internal use only. Do not provide this power

source to other devices.

Note 2: The LDO 1.05V output pin (DVDD10_UPS) must be separated from the other LDO 1.05V output

pin (AVDD10).

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Datasheet

8. Characteristics

8.1. Absolute Maximum Ratings

WARNING: Absolute maximum ratings are limits beyond which permanent damage may be caused to

the device, or device reliability will be affected. All voltages are specified reference to GND unless

otherwise specified.

Table 17. Absolute Maximum Ratings

Symbol

Description

Minimum

Maximum

Unit

VDD5IN

Supply Voltage 5.0V

-0.3

5.5

V

VDD33OUT, AVDD33,

DVDD33

Supply Voltage 3.3V

Supply Voltage 1.05V

-0.3

3.63

1.32

V

AVDD10, DVDD10,

DVDD10_UPS

Dcinput

Dcoutput

N/A

Input Voltage

-0.3

-55

Corresponding Supply Voltage + 10%

+125

V

Output Voltage

Storage Temperature

°C

Note: Refer to the latest schematic circuit for correct configuration.

8.2. Recommended Operating Conditions

Table 18. Recommended Operating Conditions

Description

Symbol

Minimum Typical Maximum Unit

VDD5

4.75

3.14

1.0

0

5.0

3.3

1.05

-

5.25

3.46

1.1

V

Supply Voltage VDD

AVDD33, DVDD33

AVDD10, DVDD10, DVDD10_UPS

V

Ambient Operating Temperature T_A

Maximum Junction Temperature

-

70

°C

-

125

Note: Refer to the latest schematic circuit for correct configuration.

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Datasheet

8.3. Crystal Requirements

Table 19. Crystal Requirements

Symbol

Description/Condition

Minimum

Typical

Maximum

Unit

Parallel resonant crystal reference

frequency, fundamental mode, AT-cut type.

F_ref

-

25/48

-

MHz

Parallel resonant crystal frequency stability,

fundamental mode, AT-cut type.

T_a= 0°C ~ +70°C.

F_refStability

-30

-50

-

+30

ppm

Parallel resonant crystal frequency

tolerance, fundamental mode, AT-cut type.

T_a= 25°C.

F_refTolerance

+50

F_refDuty Cycle

Reference Clock Input Duty Cycle.

Equivalent Series Resistance.

Load Capacitance.

40

-

60

70

20

0.5

%

Ω

ESR

CL

16

-

pF

DL

Drive Level.

mW

Note 1: The CLK source can come from other places in the system, but it must accord with the parameters above.

Note 2: Broadband RMS=9ps; 25KHz to 25MHz RMS=3ps.

Note 3: The ESR maximum value of 70ohm is based on shunt capacitance (Co) less than 7pF.

Note 4: The accuracy of the crystal resonance frequency can be achieved by matching the load capacitance correctly to

the designed-in circuit. The latest schematic circuit recommends two external capacitors of 27pF connected between the

crystal and ground. To match this use the load capacitance specified by the crystal manufacturer of 16~20pF.

8.4. Oscillator Requirements

Table 20. Oscillator Requirements

Parameter

Condition

Minimum

Typical

Maximum

Unit

MHz

ppm

%

Frequency

-

-30

-50

40

-

25/48

-

Frequency Stability

Frequency Tolerance

Duty Cycle

-

+30

+50

60

T_a= 0°C~+70°C

T_a= 25°C

-

Broadband Peak-to-Peak Jitter

Vp-p

-

200

3.45

10

ps

3.15

-

3.3

-

V

Rise Time

ns

Fall Time

-

10

ns

0

-

70

Operation Temp Range

°C

Note 1: The CLK source can come from other places in the system, but it must accord with the parameters above.

Note 2: Broadband RMS=9ps; 25KHz to 25MHz RMS=3ps.

8.5. Environmental Characteristics

Table 21. Environmental Characteristics

Parameter

Minimum

Maximum

+125

Units

°C

Storage Temperature

Ambient Operating Temperature

-55

0

70

°C

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Datasheet

8.6. DC Characteristics

Table 22. DC Characteristics

Symbol

Parameter

Conditions

Minimum

Typical

Maximum

Units

VDD5

5.0V Supply Voltage

-

4.75

5.00

5.25

V

AVDD33,

DVDD33

3.3V Supply Voltage

-

3.14

3.30

3.46

V

AVDD10,

DVDD10,

1.05V Supply Voltage

-

1.00

1.05

1.10

V

DVDD10_UPS

Minimum High Level

Output Voltage

V_oh

V_ol

V_ih

I

_oh= -4mA

0.9*VDD33

-

VDD33

0.1*VDD33

-

V

Maximum Low Level

Output Voltage

I_ol= 4mA

-

0

Minimum High Level

Input Voltage

2.0

Maximum Low Level

Input Voltage

V_il

I_in

-

0.8

0.5

V

Input Current

Vin = VDD33 or GND

0

µA

Average Operating

Supply Current from

5.0V

At 100Mbps with

heavy network traffic

Icc5

-

0.4

24

60

-

mA

Average Operating

Supply Current from

3.3V

At 100Mbps with

heavy network traffic

Icc33

Icc10

Average Operating

Supply Current from

1.05V

At 100Mbps with

heavy network traffic

Note: Refer to the latest schematic circuit for correct configuration.

8.7. Reflow Profile Recommendations

Table 23. Reflow Profile Recommendations

Profile Feature

Sn-Pb Eutectic Assembly

100°C

Pb-Free Assembly

150°C

Minimum Preheat Temperature (T_smin

)

Maximum Preheat Temperature (T_smax

Preheat Time (t_S) from T_sminto T_smax

Ramp-Up Rate (T_Lto T_p)

)

150°C

200°C

60~120 seconds

3°C/second max.

183°C

60~120 seconds

3°C/second max.

217°C

Liquidus Temperature (T_L)

Time (t_L) Maintained above T_L

Peak Package Body Temperature (T_p)

Time (t_p)²within 5°C of Peak T_P

Ramp-Down Rate (T_pto T_L)

60~150 seconds

235°C

60~150 seconds

260°C

20 seconds

6°C/second max.

6 minutes max.

6°C/second max.

8 minutes max.

Time 25°C to Peak Temperature (T_p)

Note 1: All temperatures refer to the topside of the package, measured on the package body surface.

Note 2: Tolerance for Tp is defined as a supplier’s minimum and a user’s maximum.

Note 3: Reference document: IPC/JEDEC J-STD-020D.1.

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Datasheet

8.8. AC Characteristics

8.8.1. SPI Flash Commands

Table 24. SPI Flash Commands

Command

WREN

Operation Code

Action

06h

04h

Write Enable.

WRDI

Write Disable.

RDID

9Fh

Read Manufacturer and Product ID.

Read Status Register.

Write Status Register.

Read.

RDSR

05h

WRSR

01h

Read

03h

Page Program

Sector Erase (4K)

Block Erase (64K)

Chip Erase

02h

Page Program.

20h

Erase The Selected Sector.

Erase The Selected Block.

Erase Whole Chip.

D8h

60h or C7h

8.8.2. SPI Flash Interface Timing Sequences

Figure 3. WREN/WRDI Timing Sequence

Figure 4. Read Timing Sequence

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Datasheet

Figure 5. Page Program Timing Sequence

Figure 6. Sector/Block Erase Timing Sequence

Figure 7. Chip Erase Timing Sequence

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Datasheet

8.8.3. SPI Flash Type Supported

Table 25. SPI Flash Type Supported

Manufacturer

Flash Part No.

MX25L4006E

MX25L8006E

MX25L1606E

W25X40CV

W25Q40BV

W25Q80BV

W25Q16CV

M25P40

Density (Mb)

Maximum Freq. (MHz)

MXIC

4

8

86

80

75

16

4

Winbond

Micron

4

8

16

4

M25PX80

8

M25PX16

16

Note 1: The Flash clock frequency should be 33MHz or higher.

Note 2: Flash density should be 4Mb or more. 4Mb is only for single OS driver. For feature extensions, 8Mb is

recommended.

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Datasheet

9. Mechanical Dimensions

Symbol

Dimension in mm

Nom

Dimension in inch

Min

0.80

0.00

-

Max

0.90

0.05

0.70

Min

0.031

0.000

-

Nom

0.033

Max

0.035

0.002

0.028

A

A₁

0.85

0.02

0.001

A₂

0.65

0.026

A₃

0.20REF

0.25

0.008REF

0.010

b

0.18

2.45

0.30

2.95

0.50

0.007

0.096

0.012

0.116

0.020

D/E

D2/E2

e

4.00BSC

2.70

0.158BSC

0.106

0.50BSC

0.40

0.020BSC

0.016

L

Note 1: CONTROLLING DIMENSION: MILLIMETER (mm).

Note 2: REFERENCE DOCUMENT: JEDEC MO-220.

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Datasheet

10. Ordering Information

Table 26. Ordering Information

Part Number

Package

24-Pin QFN ‘Green’ Package

Status

RTL8152B-VB-CG

-

Note: See page 3 for package ID information.

Realtek Semiconductor Corp.

Headquarters

No. 2, Innovation Road II

Hsinchu Science Park, Hsinchu 300, Taiwan

Tel.: +886-3-578-0211. Fax: +886-3-577-6047

www.realtek.com

Integrated 10/100M Ethernet Controller for USB Applications

22

Track ID: JATR-8275-15 Rev. 1.0


型号：	RTL8152B-VB-CG
厂家：	Realtek Semiconductor Corp.
描述：	INTEGRATED 10/100M ETHERNET CONTROLLER 局域网（LAN）标准以太网：16GBASE-T
文件：	总27页 (文件大小：515K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

RTL8152B-VB-CG [REALTEK]

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