ML6652 10/100Mbps Ethernet Fiber and Copper Media Converter with Auto-Negotiation
GENERAL DESCRIPTION
The ML6652 is a low cost multi-function / multi-standard single chip Media Converter that provides 10Mbps and 100Mbps signal conversion between twisted pair and fiber optic Ethernet technologies. The device supports conversion between: 10BASE-T and 10BASE-FL 100BASE-TX and 100BASE-FX/SX 100BASE-FX and 100BASE-SX FLP Bursts and FLNP Bursts The device supports 10Mbps and 100Mbps operating data rates with Auto-Negotiation using 850nm or 1300nm optics. One or both of the fiber optic and twisted pair interfaces can be interfaced to industry standard miniature fiber optic components or Physical Media Dependent (PMD) modules using Positive Emitter Coupled Logic/Low Voltage Positive Emitter Coupled Logic (PECL/LVPECL) compatible modes. Support of other wavelengths is possible using the PECL/LVPECL interface.
FEATURES
• Complete implementation of fiber optic and twisted pair media interface • Supports ISO/IEC 8802.3, IEEE 802.3 and TIA/EIA-785 Industry Standards, including full Auto-Negotiation for twisted pair and fiber optic media • 850nm, 1300nm miniature fiber optic components and PMD modules • Supports 1:1 receiver/transmitter transformer ratio for twisted pair • Low latency • Integrated voltage and current references • Integrated twisted pair output wave shaping eliminates external filtering • Integrated twisted pair 10BASE-T input filter and 100BASE-TX equalizer with baseline wander correction circuit • Serial Management Interface • Full and Half Duplex with Auto-Negotiation • Integrated LED Driver • Integrated Data Quantizer • Small 44-Pin TQFP and LPCC/QFN • Low 3.3V power supply • Integrated Link Integrity Warning (LIW)
APPLICATIONS
• Single/Multi Port 10/100 Auto-Negotiating Media Converters • Single/Multi Port 100BASE-FX/SX to100BASE-TX Media Converters • Single/Multi Port 10BASE-FL to 10BASE-T Media Converters • Single/Multi Mode Fiber Converters • Fiber Optic Front-End for Network Interface Cards (NICs), Repeaters, Bridges, Hubs and Switches • Fiber-To-The-Desk/Building/Factory Floor as well as Home Connectivity Gateway/Demarcation Products • Redundant Link Converters and Wavelength Converters
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Final Datasheet
DS6652-F-02
�ML6652
TABLE OF CONTENTS
General Description ......................................................................................................................................................... 1 Features ......................................................................................................................................................................... 1 Applications ..................................................................................................................................................................... 1 Warranty Information ....................................................................................................................................................... 2 Block Diagram ................................................................................................................................................................. 3 Pin Configuration ............................................................................................................................................................. 4 Pin Descriptions ............................................................................................................................................................... 4 General Description ....................................................................................................................................................... 13 Functional Description ................................................................................................................................................... 14 Device Configuration ..................................................................................................................................................... 14 Default Power Configuration .......................................................................................................................................... 14 Serial Management Interface ......................................................................................................................................... 14 Speed Selection ............................................................................................................................................................. 15 Operating Modes ........................................................................................................................................................... 16 Transparent Mode ........................................................................................................................................................... 18 Fiber Optic Input/Output Interface ................................................................................................................................. 18 Power Down Mode ......................................................................................................................................................... 19 Loopback Mode ............................................................................................................................................................. 19 Scrambler/Descrambler .................................................................................................................................................. 19 Output Off Mode ........................................................................................................................................................... 19 Backup Link Mode ......................................................................................................................................................... 19 LED Interface ................................................................................................................................................................. 20 Control Registers ........................................................................................................................................................... 21 Status Registers ............................................................................................................................................................ 23 Electrical Characteristics ............................................................................................................................................... 24 Physical Dimensions ...................................................................................................................................................... 28 Order Information .......................................................................................................................................................... 28
WARRANTY
Micro Linear makes no representations or warranties with respect to the accuracy, utility, or completeness of the contents of this publication and reserves the right to make changes to specifications and product descriptions at any time without notice. No license, express or implied, by estoppel or otherwise, to any patents or other intellectual property rights is granted by this document. The circuits contained in this document are offered as possible applications only. Particular uses or applications may invalidate some of the specifications and/or product descriptions contained herein. The customer is urged to perform its own engineering review before deciding on a particular application. Micro Linear assumes no liability whatsoever, and disclaims any express or implied warranty, relating to sale and/or use of Micro Linear products including liability or warranties relating to merchantability, fitness for a particular purpose, or infringement of any intellectual property right. Micro Linear products are not designed for use in medical, life saving, or life sustaining applications. If this document is "Advance", its contents describe a Micro Linear product that is currently under development. All detailed specifications including pinouts and electrical specifications may be changed without notice. If this document is "Preliminary", its contents are based on early silicon measurements. Typical data is representative of the product but is subject to change without notice. Pinout and mechanical dimensions are final. Preliminary documents supersede all Advance documents and all previous Preliminary versions. If this document is "Final", its contents are based on a characterized product, and it is believed to be accurate at the time of publication. Final Data Sheets supersede all previously published versions. This document is Final.
© 2004 Micro Linear Corporation. All rights reserved. All other trademarks are the property of their respective owners.
Products described herein may be covered by one or more of the following U.S. patents: 4,897,611; 4,964,026; 5,027,116; 5,281,862; 5,283,483; 5,418,502; 5,508,570; 5,510,727; 5,523,940; 5,546,017; 5,559,470; 5,565,761; 5,592,128; 5,594,376; 5,652,479; 5,661,427; 5,663,874; 5,672,959; 5,689,167; 5,714,897; 5,717,798; 5,742,151; 5,747,977; 5,754,012; 5,757,174; 5,767,653; 5,777,514; 5,793,168; 5,798,635; 5,804,950; 5,808,455; 5,811,999; 5,818,207; 5,818,669; 5,825,165; 5,825,223; 5,838,723; 5.844,378; 5,844,941. Japan: 2,598,946; 2,619,299; 2,704,176; 2,821,714. Other patents are pending.
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�MDC
VCCE
AD32
AD10
MDIO
VCCD
VCCL
SPEED
GNDE
GNDT
GNDL
VCCQ
GNDD
PECLTP
VCCFC
TPANDT
TPINSPD
FOANDT
FOINSPD
BCKLINK
PWRDWN#
FOOUTOFF#
TPOUTOFF#
PECLQU AD4LIW
DUPLEX
GNDFC
GNDQ
GNDB
3
Auto Negotiation Processing 10Mbps Processing
TPOUTP 1
33 FOINP 32 FOINN 30 CQOS 29 SDFO 39 SDTH
Fiber Optic or PECL/LVPECL Input
BLOCK DIAGRAM
TPOUTN 3
RTTP 38
Twisted Pair or PECL/LVPECL Output 100Base-TX Scrambler 100Mbps Clock and Data Recovery
January 2004
100Mbps Clock and Data Recovery 10Mbps Processing Auto Negotiation Processing 100Base-TX Descrambler Fiber Optic or PECL/LVPECL Output Configuration and Control Logic Management Interface 41 40 24 14 13 7 84 5 6 27 25 17 16 2
TPINP 10
TPINN 11
21 IOUT 22 IOUT# 36 RTOP
Twisted Pair or PECL/LVPECL Input
REQSD 37
Final Datasheet
REFCLK 18
LED STATUS & Backup Link
44
42
43
9 12 15 19 20 23 26 28 31 34 35
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�ML6652
PIN CONFIGURATION
PIN DESCRIPTIONS
Signal names followed by "#" indicate active low input.
Pin No. Signal Name
CONFIGURATION 4 AD4LIW
I/O
Description
I
5
AD32
I
Sets the value of the Physical Layer (PHY) address bit 4 for accessing the Serial Management Interface, and determines if the Link Integrity Warning (LIW) function is enabled or disabled. The Link Integrity Warning (LIW) function can only be enabled when only one SPEED is available through setting of SPEED ( pin 27) and/or management registers. When LIW is enabled and the input link is down at one interface to the Media Converter, the transmitter output on that interface is turned off for about 425ms every 3.8 seconds. It applies to both network interfaces and both data rates. If the link at the other interface to the Media Converter is also down, there is no output. The LIW function causes the Link Up indicator of the link partner to blink. Note: this pin is typically read a few microseconds after power-up, if it is tied to supplies that do not track the ML6652 power improper results will occur. Use VCCD (pin 19) as the pull up point, do not add decoupling capacitors to this input pin (without thoroughly understanding your PCB layout dynamics the safest course is to make short connections and do not add decoupling capacitors to this input pin). Sets the value of the PHY address bits 3 and 2 for accessing the Serial Management Interface. Note: this pin is typically read a few microseconds after power-up, if it is tied to supplies that do not track the ML6652 power improper results will occur. Use VCCD (pin 19) as the pull up point, do not add decoupling capacitors to this input pin (without thoroughly understanding your PCB layout dynamics the safest course is to make short connections and do not add decoupling capacitors to this input pin).
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�ML6652
PIN DESCRIPTIONS (continued)
Pin No. Signal Name
6 AD10
I/O
I
Description
Sets the value of the PHY address bits 1 and 0 for accessing the Serial Management Interface. Note: this pin is typically read a few microseconds after power-up, if it is tied to supplies that do not track the ML6652 power improper results will occur. Use VCCD (pin 19) as the pull up point, do not add decoupling capacitors to this input pin (without thoroughly understanding your PCB layout dynamics the safest course is to make short connections and do not add decoupling capacitors to this input pin).
P in Name Input Level 0 1/3 of VCC 2/3 of VCC V CC
A D4LIW LIW Function PHYAD4 Bit D isabled 0 E nabled 0 E nabled 1 D isabled 1
A D32 PHYAD3 Bit PHYAD2 Bit 0 0 1 0 1 1 0 1
Table 1.
A D10 PHYAD1 Bit P HYAD0 Bit 0 0 1 0 1 1 0 1
7
PECLTP
I
The copper interface is selected as shown in Table 2. When twisted pair interface is selected, the scrambler and descrambler are enabled by default and can be disabled with a management register bit. When using twisted pair interface, this pin also defines the maximum supported link distance. When the 10 meters maximum link length is selected, the input is not equalized before being sliced. Note: this pin is typically read a few microseconds after power-up, if it is tied to supplies that do not track the ML6652 power improper results will occur. Use VCCD (pin 19) as the pull up point, do not add decoupling capacitors to this input pin (without thoroughly understanding your PCB layout dynamics the safest course is to make short connections and do not add decoupling capacitors to this input pin).
PECLTP Voltage 0 1/3 of VCC 2/3 of VCC VCC
Interfaces at PECLTP TPINP/TPINN and TPOUTP/TPOUTN Default Twisted Pair 0 PECL/LVPECL Twisted Pair Twisted Pair 1 0 0
Copper Length 100BASE-TX Standard PCB Traces PCB Traces 10m
SHORTTP Default 0 0 1 1
Output Current Standard NA Low Standard
LOWITPOUT Default 0 0 1 0
Table 2.
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�ML6652
PIN DESCRIPTIONS (continued)
Pin No. Signal Name
8 PECLQU
I/O
I
Description
The fiber interface is selected as shown in Table 3. When using an LED driver and fiber optic receiver, this pin also defines the maximum supported link distance. When the 300m maximum link length is selected, the voltage thresholds for Signal Detect are increased.
PECLQU Voltage 0 1/3 of VCC 2/3 of VCC VCC
Interfaces at PECLQU FOINP/FOINN and IOUT/IOUT# Default Quantizer andLED 0 Driver PECL/LVPECL 1 Quantizer and LED 0 Driver Quantizer and LED 0 Driver
Fiber Optic Link Length 10BASE/100BASE 2Km/300m PCB Traces 2Km/2Km 300m/300m
SHORTFO Wavelength LONGWL Default Default 0 850nm 0 0 0 1 NA 1300nm 850/1300nm 0 1 0
Table 3.
Note: The ML6652 fiber interface quantizer sensitivity can be adjusted via Register 30 bits 5, 6 and 7 to accomodate various cable lengths and signal intensity. 25 DUPLEX I This input can have one of three levels: VCC, VCC/2 or 0 Volts. This input has 80kΩ resistors internally connected to both VCC and Ground, generating VCC/ 2 at the input if left unconnected. Settings defined by the DUPLEX power up preset pin can be over written by the management interface. At power up the DUPLEX pin causes the following default values to be written to management register 30. Note: this pin is typically read a few microseconds after power-up, if it is tied to supplies that do not track the ML6652 power improper results will occur. Use VCCD (pin 19) as the pull up point, do not add decoupling capacitors to this input pin (without thoroughly understanding your PCB layout dynamics the safest course is to make short connections and do not add decoupling capacitors to this input pin).
TRANSPARENT# Default 1 0 1 ADVERTFD# Default 1 0 0 ADVERTHD# Default 0 0 0
DUPLEX Voltage 0 VCC/2 VCC
Table 4.
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�ML6652
PIN DESCRIPTIONS (continued)
Pin No. Signal Name I/O Description
DUPLEX and SPEED can be used concurrently to set the power up mode of the ML6652 see Tables 4 and 6. For Mode details see the General Description section of this data sheet. 27 SPEED I This input can have one of three levels: VCC, VCC/2, and 0Volts. The input has 80kΩ resistors internally connected to both VCC and Ground generating VCC/2 at the input, if left unconnected. Settings defined by the SPEED power up preset pin can be over written by the management interface. At power up the SPEED pin causes the following default values to be written to management register 30. Note: this pin is typically read a few microseconds after power-up. If it is tied to supplies that do not track the ML6652 power, improper results will occur. Use VCCD (pin 19) as the pull up point, do not add decoupling capacitors to this input pin (without thoroughly understanding your PCB layout dynamics the safest course is to make short connections and do not add decoupling capacitors to this input pin).
SPEED Voltage 0 VCC/2 VCC
DSBLAN Default 1 0 1
SINGLESPEED Default 1 0 1
SEL10Mbps Default 1 0 0
Table 5.
Mode F orced 10 F orced 100 Non-Transparent Half-Duplex Non-Transparent
Transparent
Operating Summary SPEED Voltage 10Mbps data rate only available. The Duplex mode 0 is selected by the link partner. 100Mbps data rate only available. The Duplex mode VCC is selected by the link partner. Only the Half-Duplex mode is advertised. Both 10 VCC/2 and 100Mbps data rates are available. Only the data rate equivalent to the technology present at the fiber optic input interface is advertised. FLP Bursts are generated. Both Half Duplex and VCC/2 Full-Duplex modes are advertised. Both 10 and 100Mbps data rates are available. Only the data rate equivalent to the technology present at the fiber optic input interface is advertised. Standard Auto-Negotiation sub-layer 10Mbps, VCC/2 100Mbps and Auto-Negotiation far end link partner signaling available.
Table 6.
DUPLEX Voltage N/A N/A 0
VCC
VCC/2
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�ML6652
PIN DESCRIPTIONS (continued)
Pin No. Signal Name
CONTROL 13 TPOUTOFF# 14 24 FOOUTOFF# PWRDWN#
I/O
I (CMOS) I (CMOS) I (CMOS)
Description
Active low, the output stage of the twisted pair output is turned off. Contains an on-chip 80kΩ pull-up resister. Active low, the output stage of the fiber optic output is turned off. Contains an on-chip 80kΩ pull-up resister. Active low, all the circuits are powered down. Configuration pins are read and register bits are initialized 5µs (typ) after a rising edge of PWRDWN#. Contains an on-chip 80kΩ pull-up resister. The two operating modes available for these pins are selected with the configuration pin PECLTP (pin 7) or the configuration bit PECLTP Twisted Pair Interface Mode: Transmit twisted pair positive and complementary outputs. These outputs form a differential current output pair that drives Multi Level Transition (MLT-3) waveforms into the network coupling transformer during 100Mbps mode, Manchester encoded 10BASE-T data or Normal Link Pulses (NLPs) during 10Mbps mode, and Fast Link Pulse (FLP) Bursts during Auto-Negotiation. TPOUTP and TPOUTN must have external pull up resistors to VCC (refer to description of RTTP pin) PECL/LVPECL Compatible Interface Mode: PECL/LVPECL interface positive and complementary outputs. These outputs form a differential current output pair that drives Non Return to Zero Inverted (NRZI) encoded 100BASE-FX or 100BASE-SX symbols during 100Mbps mode, Manchester encoded 10BASE-FL data or OPT_IDL during 10Mbps mode, and Fiber Link Negotiation Pulse (FLNP) Bursts during Auto-Negotiation. TPOUTP and TPOUTN must have external pull up resistors to VCC and be AC coupled to the inputs of a fiber optic PMD module (refer to description of RTTP pin). A resistor network may be needed to setup the common mode voltage at the input pins of the PMD module Twisted pair PECL/LVPECL compatible driver bias resistor. An external resistor connected between RTTP and ground sets a constant bias current for the differential output driver circuitry TPOUTP/TPOUTN. These output currents depend on the operating mode. The recommended external component values are: Twisted Pair Mode: 2kΩ, 1%, between RTTP and ground 50Ω, 1%, between TPOUTP and VCC 50Ω, 1%, between TPOUTN and VCC PECL Compatible mode: 2kΩ, 1%, between RTTP and ground Equivalent 62Ω between TPOUTP and VCC Equivalent 62Ω between TPOUTN and VCC Also AC coupled to the PMD inputs The two operating modes available for these pins are selected with the configuration pin PECLTP (Pin 7) or the configuration bit PECLTP . Twisted Pair Interface Mode: Receive twisted pair positive and complementary inputs. These inputs form a differential input pair that receives 100BASE-TX, FLP Burst, or 10BASE-T signal from the network. The common mode voltage is set internally and the differential input resistance is about 2kΩ. The network termination must be added externally. It should contain a 100Ω resister between pin 10 and 11 as shown in Figure 1.
DATA SIGNAL INPUT/OUTPUT 1 TPOUTP O 3 TPOUTN O
38
RTTP
I
10 11
TPINP TPINN
I I
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�ML6652
PIN DESCRIPTIONS (continued)
Pin No. Signal Name I/O Description
ML6652 Input from transformer circuit Pulse H1019 or equiv. 10 100Ω 11
Figure 1. Twisted Pair Interface Mode Input Networks
PECL/LVPECL Compatible Interface Mode: PECL/LVPECL compatible interface positive and complementary inputs. These inputs form a differential input pair that receives 100BASE-FX, 100BASE-SX, FLNP Bursts, or 10BASE-FL signal from a fiber optic PMD. The PMD outputs should be AC coupled to these inputs with .1µF capacitors. The common mode voltage is set internally with ~1kΩ or so resistors from each input pin to an onchip voltage reference. The positive output of the PMD (high during the highlight state) must connect to TPINP and the complementary output of the PMD must connect to TPINN 37 REQSD I The two operating modes available for this pin are selected with the configuration pin PECLTP or the configuration bit PECLTP Twisted Pair Interface Mode: Equalizer bias resistor pin. An external resistor connected between this pin and ground sets internal currents that control the receiver’s adaptive equalizer transfer function. The recommended resistor value is 5kΩ, 1% PECL/LVPECL Compatible Interface Mode: This input pin is connected to the Signal Detect (SD) output of a fiber optic PMD module. The voltage level at this pin is compared to the voltage level at pin SDTH to determine the logic value. If it is lower, then the input at TPINP/ TPINN is rejected. If it is higher, then the input at TPINP/TPINN is passed to the internal circuits The voltage at this pin is a single ended PECL/LVPECL reference. Refer to description of SDFO and REQSD pins. This pin is not used if the TPINP/TPINN interface and the FOINP/FOINN are not setup for PECL/LVPECL compatible mode. In such a case, the SDTH pin should be set to VCC The two operating modes available for these pins are selected with the configuration pin PECLQU or the configuration bit PECLQU Fiber Optic Interface Mode: IOUT (pin 21) becomes the output connection to the cathode of an external fiber optic LED. The output data is NRZI encoded 100BASE-FX or 100BASESX symbols during 100Mbps mode, Manchester encoded 10BASE-FL data or OPT_IDL (10BASE-FL idle signal) during 10Mbps mode, and FLNP Bursts during Auto-Negotiation. IOUT# (pin 22) is optionally used to provide current peaking. If peaking is
39
SDTH
I
21 22
IOUT IOUT#
O O
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�ML6652
PIN DESCRIPTIONS (continued)
Pin No. Signal Name I/O Description
implemented, a 1kΩ off-chip resistor should be connected to ground and a 1nF capacitor connected to IOUT. These components determine the peaking current waveform. When peaking is not used, IOUT# should connect to VCC PECL/LVPECL Compatible Interface Mode: PECL/LVPECL interface positive and complementary outputs. These outputs form a differential current output pair that drives NRZI encoded 100BASE-SX or 100BASE-FX symbols during 100Mbps mode, Manchester encoded 10BASEFL data or OPT_IDL during 10Mbps mode, and FLNP Bursts during AutoNegotiation. IOUT and IOUT# are loaded with external resistors to VCC and AC coupled to the inputs of a fiber optic PMD module (refer to description of RTOP pin). A resistor network may be needed to setup the common mode voltage at the input pins of the PMD module 36 RTOP O Fiber optic LED or PECL/LVPECL driver bias resistor. An external resistor connected between RTOP and ground sets a constant bias current for the single ended LED driver or differential PECL/LVPECL driver circuitry. These output currents depend on the operating mode. The recommended external component values are: Fiber Optic Interface mode: (1% resistors, +/- 10% currents) Indicated is the current into pin IOUT during the High-Light state. 2.8kΩ between RTOP and ground for 50mA. 2kΩ between RTOP and ground for 70mA. 1.4kΩ between RTOP and ground for 100mA. PECL/LVPECL Interface mode: 1.4kΩ, 1%, between RTOP and ground for 10mA current. Equivalent 62Ω between IOUT and VCC. Equivalent 62Ω between IOUT# and VCC. Also AC coupled to PMD inputs The two operating modes available for these pins and are selected with the configuration pin PECLQU or the configuration bit PECLQU Fiber Optic Interface Mode: Fiber optic quantizer positive and complementary inputs. FOINP is capacitively coupled to the output of a fiber optic receiver, while FOINN is capacitively coupled to the VCC of the fiber optic receiver. Recommended capacitor values: 10nF, 5%. FOINP voltage must be higher during the “high light” state than during the low-light state PECL/LVPECL Compatible Interface Mode: PECL/LVPECL interface positive and complementary inputs. These inputs form a differential input pair that receives 100BASE-FX, 100BASE-SX, FLNP Bursts, or 10BASE-FL signal from a fiber optic PMD. The PMD outputs are AC coupled to these inputs with 10nF, 5% capacitors. The common mode voltage is set internally with ~900Ω (or so) resistors from each input pin to an on-chip voltage reference. FOINP voltage must be higher during the “high light” state than during the "low light" state Data quantizer offset cancellation loop capacitor. An external capacitor between this pin and VCC determines the dominant pole of the offset cancellation feedback loop. The recommended value is .1µF, 10%. It is only required in "Fiber Optic Interface" mode. I The two operating modes available for this pin are selected with the configuration pin PECLQU or the configuration bit PECLQU Fiber Optic Interface Mode: This pin is not used and should be connected to VCC.
33 32
FOINP FOINN
I I
30
CQOS
29
SDFO
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�ML6652
PIN DESCRIPTIONS (continued)
Pin No. Signal Name I/O Description
PECL/LVPECL Compatible Interface Mode: This input pin is connected to the Signal Detect (SD) output of a fiber optic PMD. The voltage level at this pin is compared to the voltage level at pin SDTH to determine the logic value. If it is lower than the input at FOINP/ FOINN is rejected. If it is higher than the input at FOINP/FOINN is passed to the internal circuits. BACKUP LINK FUNCTION 40 BCKPLINK I/O INPUT MODE: At power up, pin 40 (BCKPLINK) is read and the BCKPDIS register is set appropriately. A high (VCC) at power up causes Register 28, Bit 1 (BCKPDIS) to be set high (1) disabling the Back-up link function. BCKPDIS can subsequently be over written by the management interface at any time. Note: This pin is typically read a few microseconds after power-up, if it is tied to supplies that do not track the ML6652 power, improper results may occur. For BCKPLINK, use VCCD (pin 19) as the pull up point, do not add decoupling capacitors to Pin 40 (without thoroughly understanding your PCB layout power up dynamics the safest course is to make short connections and do not add decoupling capacitors to this pin). OUTPUT MODE: After power-up, BCKPLINK is used as an output. It is Active high to enable a secondary fiber link via a second ML6652 device (see Functional Description, Backup Link Mode in this data sheet for details). Use this function in forced 100Mbps mode, non loopback only This output goes high to indicate that a 100Mbps signal is present at the TPINP/ TPINN interface, and it goes low to indicate that a 10Mbps signal is present at the TPINP/TPINN interface. The signal can be idle or packets. This pin is set to high impedance otherwise. This output goes high to indicate that a 100Mbps signal is present at the FOINP/FOINN interface, and it goes low to indicate that a 10Mbps signal is present at the FOINP/FOINN interface. The signal can be idle or packets. This pin is set to high impedance otherwise. When TPINSPD is in the high impedance state, no 10 or 100Mbps signal at TPINP/TPINN, the TPANDT LED pulls low while receiving Auto-Negotiation signal at the TPINP/TPINN interface. When TPINSPD is not in the high impedance state, the TPANDT pin pulls low to indicate that a data packet is being detected at the TPINP/TPINN interface. When a data packet is indicated, the pulse width at TPANDT is stretched to a minimum of 1.3 to 2.7ms to improve visibility. In any other case this pin is in high impedance state.
LED STATUS 41 TPINSPD
O
42
FOINSPD
O
43
TPANDT
O
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PIN DESCRIPTIONS (continued)
Pin No. Signal Name
LED STATUS (CONTINUED) 44 FOANDT
I/O
O
Description
When FOINSPD is in the high impedance state, no 10 or 100Mbps signal at FOINP/FOINN, the FOANDT LED pulls low while receiving Auto-Negotiation signal at the FOINP/FOINN interface. When FOINSPD is not in the high impedance state, the FOANDT pin pulls low to indicate that a data packet is being detected at the FOINP/FOINN interface. When a data packet is indicated, the pulse width at FOANDT is stretched to a minimum of 1.3 to 2.7ms to improve visibility. In any other case this pin is in high impedance state. Management data TTL compatible input/output pin. Connect to ground if unused Management clock TTL input. The maximum frequency can be 12.5MHz instead of the 2.5MHz limit of IEEE 802.3. Connect to ground if unused 25MHz Reference Clock CMOS input. This clock is used for internal digital logic, and as a reference for the PLLs. Ground for the twisted pair driver output stage. Ground for the equalizer, one PLL and part of the descrambler and twisted pair driver. Ground for CMOS noisy circuits. Ground for the fiber optic LED driver output stage. Ground for one PLL, part of the scrambler, fiber optic LED driver, and quantizer. Ground for the quantizer and central bias. Ground for part of the central biasing. Power supply for the equalizer, one PLL and part of the descrambler and twisted pair driver. Power supply for CMOS noisy circuits. Power supply for the fiber optic LED driver output stage. Power supply for one PLL, part of the scrambler, fiber optic LED driver, and quantizer. Power supply for the quantizer and central bias.
MANAGEMENT INTERFACE 16 MDIO 17 MDC
REFERENCE CLOCK 18 REFCLK POWER AND GROUND 2 GNDT 12 15 20 28 34 35 9 19 23 26 31 GNDE GNDD GNDL GNDFC GNDQ GNDB VCCE VCCD VCCL VCCFC VCCQ
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�ML6652
GENERAL DESCRIPTION
The ML6652 Fast Ethernet Media Converter provides signal conversion between the following standards: Interface Modes 1) Twisted pair interface
• 10BASE-T to 10BASE-FL; (10Mbps twisted pair copper
media and 10Mbps 850nm fiber media)
a) b)
Twisted Pair (Transformer input) Mode or PECL/LVPECL Mode
• Proprietary 10BASE-T to 10BASE-1300nm Fiber;
(10Mbps twisted pair copper media and 10Mbps 1300nm fiber media).
b) Fiber Optic Interface i) Quantizer/Fiber Optic LED Driver Mode or
• 100BASE-TX to 100BASE-SX/FX (100Mbps twisted pair
copper media and 1300nm or 850nm fiber media).
• 100BASE-FX to 100BASE-SX (100Mbps 850nm fiber
media and 100Mbps 1300nm fiber media). The ML6652 supports conversion between Twisted Pair Side, Fast Link Pulses (FLP) and Fiber Side, Fiber Link Negotiation Pulses (FLNP). It supports ISO/IEC 8802.3, IEEE 802.3, and TIA/EIA-785 including Auto-Negotiation on both twisted pair and fiber optics. The ML6652 data interfaces can all be configured in a number of ways. The twisted pair inputs and outputs can be configured in Twisted Pair Mode to interface with a 1:1 transformer for transmit and receive or in PECL/LVPECL Mode to interface a PMD module. The fiber optic inputs and outputs can be configured in Quantizer/Fiber Optic Mode with an LED driver or in PECL/LVPECL Mode. LED status outputs identify internal operational status. The ML6652 operating modes are configurable through control input pins (at power up) or through management control registers that are programmable through an interface protocol compatible with MII Serial Management Interface as defined in IEEE 802.3-1998 standards. CONFIGURABLE MODES Operating Modes (Forced, Transparent And Nontransparent) 1) FORCED 10Mbps only mode, 2) FORCED 100Mbps only mode, 3) NON-TRANSPARENT Half Duplex only, with AutoNegotiation 4) NON-TRANSPARENT Full and Half Duplex with AutoNegotiation 5) TRANSPARENT 10/100Mbps with Auto-Negotiation 6) NON-TRANSPARENT Special case
ii) PECL/LVPECL Mode Special Modes 1) Power Down Mode a) Configurable through: (i) Control pin 24 or (ii) Management control register 2) Loopback Test Modes a) b) c) For the fiber optic interface or The twisted pair interface Both are configurable through the Management control register and include bypassing clock and data recovery blocks.
3) Transmitter Output Off Mode: a) b) c) Twisted Pair or Fiber Optic Both are configurable through the Management control registers or control pins TPOUTOFF# (pin 13) and FOOUTOFF# (pin 14).
4) Backup Link Mode a) Configurable through Management control register or via BCKPLINK (Pin 40).
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DS6652-F-02
�ML6652
FUNCTIONAL DESCRIPTION
DEVICE CONFIGURATION Configuring the ML6652 Media Converter is accomplished through input configuration pins or bits in management control register 30. Configuration pins AD4LIW, AD32 and AD10 determine the PHY address used with the serial management interface consisting of MDIO (pin 16) and MDC (pin 17). The setting of any R/W bit in the control management registers can be modified by writing data to the register through the serial management interface. The control management registers 27, 28, 30, and 31 always indicate the current operating mode of the ML6652. The PHY address settings defined by AD4LIW (pin 4), AD32 (pin 5), and AD10 (pin 6) are latched and must remain stable during any serial management interface read or write operation. The PHY address pins each have four (4) distinct input levels and together encode the required five (5) bit PHY addresses. Nominal values of VCC and 0V are obtained with directions to VCCD or GNDD. Nominal values of 2/3 VCC and 1/3 VCC must be developed with external resistor dividers. Input pins SPEED (pin 27) and DUPLEX (pin 25) are three level inputs having internal 80kΩ resistors connected to both VCC and Ground. Nominal input voltage levels are VCC, VCC/2, when input is left floating, and Ground. The state of configuration pins DUPLEX, SPEED, PECLTP (pin 7) PECLQU (pin 8), and AD4LIW (pin 4) are latched 3µ to 8µs after: 1) system power up (internal signal POR going low) 2) trailing edge of PWRDWN# (pin 24) Ground to VCC 3) reset is cleared. Input pins PECLTP (pin 7) and PECLQU (pin 8) are 4 level input pins with no internal pull-up or pull-down resistors connected. Nominal values of VCC and 0V are obtained with directions to VCC or Ground. Nominal values of 2/3 VCC and 1/3 VCC must be developed with external resistor dividers. DEFAULT POWER ON CONFIGURATION This configuration method can be used to set the device whenever the MII serial management interface is not available. The logic levels at configuration pins DUPLEX, SPEED, PECLTP, PECLQU and AD4LIW are decoded and latched in management control registers 28, 30 and 31 after system power up or after a (low) to (high) transition at PWRDWN#. Figure 3. Read SERIAL MANAGEMENT INTERFACE The ML6652 has management functions controlled by three sixteen bit registers and status updated by one sixteen bit registers. Management Data is input and output through MDIO and clocked by MDC in an interface compatible with the protocol defined in clause 22 of IEEE Std 802.3-1998 MII Serial Management Interface. The address bits PHYAD are determined by voltage levels at configuration pins AD4LIW, AD32, and AD10. Management interface read and write timing relationships are shown in Figures 2 and 3.
tCPER
MDC tCPW tCPW
MDIO
tSPWS
tSPWH
Figure 2. Write
tCPER
MDC tSPRS tSPRH tCPW tCPW
MDIO
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DS6652-F-02
�ML6652
FUNCTIONAL DESCRIPTION
SPEED SELECTION The Operating modes, FORCED, TRANSPARENT and NON-TRANSPARENT are chosen at power up by setting of the DUPLEX and SPEED pins. Thereafter the operating modes may be set by toggling bits in management register 30. DUPLEX and SPEED must be used concurrently to set the mode of the ML6652 see Tables 6 and 7.
Management Interface Operating M odes Forced 10 Forced 100 Non-Transparent Half-DUPLEX Non-Transparent Transparent Bit TRANSPARENT# N/A N/A 1 1 0 Bit ADVERTHD# N/A N/A 0 0 0 Bit DSBLAN 1 1 0 0 0 Bit ADVERTFD# N/A N/A 1 0 0 Bit SINGLESPEED 1 1 0 0 0 Bit SEL10Mbps 1 0 0 0 0
Table 7.
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DS6652-F-02
�ML6652
OPERATING MODES
Operating Modes are: 1) Forced 10 0 (zero) Volt input on SPEED (or the equivalent Reg. 30 settings) enables only FORCED 10Mbps operation. 100Mbps and Auto-Negotiation are disabled. Link Integrity Warning (LIW) can also be enabled. 2) Forced 100 VCC input on SPEED (or the equivalent Reg. 30 settings) enables FORCED 100Mbps operation only. 10Mbps and Auto-Negotiation are disabled. Link Integrity Warning (LIW) can also be enabled. 3) Non-Transparent Half-DUPLEX VCC/2 (input floating) input on SPEED (or the equivalent Reg. 30 settings) enables Transparent or non-transparent 10Mbps and 100Mbps operation. DUPLEX input (0 Volts at power up) or management register 30 select NON-TRANSPARENT Mode of operation and force Half-DUPLEX. Non-transparent mode was designed for networks that have AutoNegotiation capabilities only on the copper side. The ML6652 operates in Non-Transparent Mode when all of the following four conditions are met: a) b) c) d) Duplex input is a VCC or a 0 Volts (or the equivalent Reg. 30 settings) AND Twisted Pair Link is Auto-Negotiation capable AND Fiber Optic Link Partner is not Auto-Negotiation capable AND Both 10Mbps and 100Mbps operation are enabled by SPEED input at VCC/2 or by bits in management register 30. completely separate and are always capable of simultaneous or full duplex use. Note 2: SPEED and DUPLEX modes are the only abilities advertised in this mode by the ML6652 Note 3: Link Integrity Warning (LIW) can not be enabled in this mode. 4) Non-Transparent VCC/2 (input floating) input on SPEED (or the equivalent Reg. 30 settings) enables Transparent or non-transparent 10Mbps and 100Mbps operation. DUPLEX input (VCC at power up) or management register 30 select NON-TRANSPARENT Mode of operation. Non-transparent mode was designed for networks that have Auto-Negotiation capabilities only on the copper side. The ML6652 operates in NonTransparent Mode when all of the following four conditions are met: a) b) c) d) Duplex input is a VCC or a 0 Volts (or the equivalent Reg. 30 settings) AND Twisted Pair Link is Auto-Negotiation capable AND Fiber Optic Link Partner is not Auto-Negotiation capable AND Both 10Mbps and 100Mbps operation are enabled by SPEED input at VCC/2 or by bits in management register 30.
In this mode, the twisted pair output is disabled until signal is detected at both the twisted pair and the fiber optic inputs. The fiber optic output is not disabled, and it shows the input signal from the twisted pair interface converted to the equivalent fiber optic technology. When the TP link partner negotiates the link through the Auto-Negotiation protocol and FLP bursts reach the ML6652 operating in the Non-Transparent mode, the ML6652 will start generating its own FLP Bursts advertising the speed detected at the FO input and the DUPLEX mode selected through the DUPLEX pin or through the management interface bits 30.15 and 30.10 The ML6652 will transmit FLP Bursts as long as it receives FLP Bursts from the TP link partner. (The decision that the link is settled will be made by the TP link partner.) Note 1: SPEED and DUPLEX modes are the only abilities advertised in this mode by the ML6652 Note 2: Link Integrity Warning (LIW) can not be enabled in this mode. 5) Transparent VCC/2 (input floating) input on SPEED (or the equivalent Reg. 30 settings) enables Transparent or non-transparent 10Mbps and 100Mbps operation. DUPLEX input and management register 30 select
In this mode, the twisted pair output is disabled until signal is detected at both the twisted pair and the fiber optic inputs. The fiber optic output is not disabled, and it shows the input signal from the twisted pair interface converted to the equivalent fiber optic technology. When the TP link partner negotiates the link through the Auto-Negotiation protocol and FLP bursts reach the ML6652 operating in the Non-Transparent mode, the ML6652 will start generating its own FLP Bursts advertising the speed detected at the FO input and the DUPLEX mode selected through the DUPLEX pin or through the management interface bits 30.15 and 30.10 The ML6652 will transmit FLP Bursts as long as it receives FLP Bursts from the TP link partner. (The decision that the link is settled will be made by the TP link partner.) Note 1: In Non-Transparent Half Duplex Mode, only the Half Duplex mode of operation is advertised through the Auto-Negotiation protocol. However nothing changes inside the ML6652, the transmit and receive paths are
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DS6652-F-02
�ML6652
OPERATING MODES
TRANSPARENT or NON-TRANSPARENT Mode of operation. Transparent Mode is the default mode of operation for the ML6652 when DUPLEX input is VCC/ 2. In this mode, the control circuit implements the state diagrams of the Auto-Negotiation sub-layer defined in clause 5 of TIA/EIA-785 standard. In general the enabled Physical Media Attachment (PMA) at the fiber optic output is the equivalent to the technology detected at the twisted pair input and the enabled PMA at the twisted pair output is the equivalent to the technology detected at the fiber optic input. Of course system Auto-Negotiation causes both paths to the greatest common denominator. The system chooses the greatest common denominator in the following order least to greatest: a) b) c) d) Half DUPLEX, 10Mbs Full DUPLEX, 10Mbs Half DUPLEX, 100Mbs Full DUPLEX, 100Mbs a) All internal registers may be used to: i) Set operating modes, (1) FORCED 10Mbps only mode, (2) FORCED 100Mbps only mode, (3) NON-TRANSPARENT Half Duplex only (4) NON-TRANSPARENT Full and Half Duplex with Auto-Negotiation (5) TRANSPARENT 10/100Mbps with AutoNegotiation ii) Select interface configurations (1) Both fiber and copper iii) Special modes (1) Power Down Mode (2) Loopback Test Modes (3) Transmitter Output Off Mode: (4) Backup Link Mode (Pin 40) iv) And read control information 2) Through configuration and control pins Note: Pins 4 AD4LIW and 40 BCKPLINK are both shared between a power-up read and a later control function and thus appear in both lists. Pin 4 AD4LIW is read and the condition latched to set register 30 bit 12 subsequently it is used as an unlatched address pin. Pin 40 BCKPLINK is read and the condition latched to set register 28 bit 1, subsequently it is used as an output to drive a second ML6652 to provide back up link. a) At power up the following pins are read and the appropriate registers are set: (but with a limited sub-set of the control afforded by the management control registers.) i) Pin 7 (PECLTP)
Note: In transparent mode the ML6652 does not generate information. It only takes the information from the link partner on one side (without adding or remove any information) and it translates it to the language of the link partner of other side. This mode is for use in networks that have AutoNegotiation capabilities on both copper and fiber sides. The ML6652 follows the demands of the far end link partners during the network Auto-Negotiation. Link Integrity Warning (LIW) cannot be enabled in this mode. 6) Special case for the Non-Transparent Mode: The ML6652 operates in this mode when all of the following three conditions are met: a) b) c) Duplex input is a VCC or a 0 Volts (or the equivalent Reg. 30 settings) AND Twisted Pair Link is Auto-Negotiation capable AND Both 10Mbps and 100Mbps operation are enabled by SPEED input at VCC/2 or by bits in management register 30.
ii) Pin 8 (PECLQU) iii) Pin 25 (DUPLEX) iv) Pin 27 (SPEED) v) Pin 4 (AD4LIW)
If the Fiber Optic Link Partner is Auto-Negotiation capable the ML6652 will allow the fiber optic link partner to AutoNegotiate through the ML6652 to the twisted pair link partner. In this special case the non-transparent mode acts in the same way as the transparent mode. This is because the self-generation of FLP bursts is suppressed by the presence of the FLP bursts from the fiber link partner. The ML6652 can be configured in two general ways: 1) Through the management interface, pins 16 (MDIO) and 17 (MDC), all of the registers can be changed after power-up. The management interface settings override any power-up register settings.
vi) Pin 40 (BCKLINK) Note: These pins are typically read a few microseconds after power-up, if they are tied to supplies that do not track the ML6652 power improper results may occur. To reduce the parts count, pins Pin 7 (PECLTP), Pin 8 (PECLQU), Pin 4 (AD4LIW), Pin 5 (AD 32) and Pin 6 (AD10) may be supplies from a common 20kΩ resistor tree as shown on our evaluation boards schematics
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DS6652-F-02
�ML6652
OPERATING MODES
(without thoroughly understanding your PCB layout power up dynamics the safest course is to make short connections and do not to add decoupling capacitors to these pins). When Pin 7 (PECLTP) and Pin 8 (PECLQU) are connected to 1/3 VCC and 2/3 VCC use >20kΩ resistors and connect to the proper decoupled VCCD and GNDD. For Pin 7 (PECLTP) use Pin 19 VCCD and Pin 15 GNDD, do not add decoupling capacitors to Pin 7. For Pin 8 (PECLQU use Pin 19 VCCD and Pin15 GNDD, do not add decoupling capacitors to Pin 8. When Pin 25 (DUPLEX) and Pin 27 (SPEED) are connected to VCC/2 use the internal 80kΩ resistor pair by leaving the pin open. Do not add external resistors or decoupling capacitors these pins. When Pin 4 AD4LIW is connected to 1/3 and 2/3 VCC use >20kΩ resistors and connect to the proper decoupled VCCD and GNDD. When Pin 4 AD4LIW is connected to ground use Pin 15 GNDD. When Pin 4 AD4LIW is connected to VCC use Pin 19 VCCD and do not add decoupling capacitors to pin 4 AD4LIW. Pull Pin 40 BCKPLINK up and down (One and Zero) through a 10K resistor connected to either Pin 19 VCCD or Pin 15 GNDD. b) The following pins are available at all times for control: (Note: When Pin 4 (AD4LIW) Pin 5 (AD 32) and Pin 6 (AD10) are connected to 1/3 VCC and 2/3 VCC use >20K ohm resistors and connect to the proper decoupled Pin 19 VCCD and Pin 15 GNDD do not add decoupling capacitors to Pin 4, 5 or 6.) i) ii) Pin 4 (AD4LIW) Pin 5 (AD 32) TRANSPARENT MODE Twisted Pair Input/Output Interface Two operating modes are available for the twisted pair differential inputs TPINP (pin 10)/TPINN (pin 11) and the differential output pair TPOUTP (pin 1)/TPOUTN (pin 3) selected by the input configuration pin PECLTP (pin 7) or by the setting of bit in management register 30. In twisted pair interface mode, the inputs form a differential pair that receives twisted pair positive and complementary signals and the outputs form a differential current output pair that drives MLT-3 encoded 100BASE data, Manchester encoded 10BASE-T data or NLPs during 10Mbps mode, and FLP bursts during AutoNegotiation into a network coupling 1:1 transformer. To communicate between two fiber optic sources, the twisted pair input and output can be configured as PECL/ LVPECL interface compatible with the configuration pin PECLTP or by setting bit high. In this mode, both the input differential pair and the output differential pair provide PECL/LVPECL compatible interface positive and complementary levels. The preferred mode of operation is twisted pair compatible signal levels. The default mode of operation is set by PECLTP (pin 7). Fiber Optic input/Output Interface Two modes of operation are available for the fiber optic inputs FOINP (pin 33), FOINN (pin 32) and the fiber optic outputs IOUT (pin 21) and IOUT# (pin 22) selected by input control pin PECLQU (pin 8) or by the setting of bit in management register 30. PECLQU is a four level input and when set at VCC/3 by an external resistor network the two outputs IOUT/IOUT# form a differential output pair that are AC coupled to a fiber optic PMD module. The differential current output pair output NRZI encoded 100BASE-FX or 100BASE-SX symbols in 100Mbps mode. They output Manchester encoded 10BASE-FL data or Optical Idle (OPT_IDL) in 10Mbps mode and FLNP bursts during Auto-Negotiation. IOUT and IOUT# require external pull-up resistors to VCC and must be AC coupled to a fiber optic PMD module. A resistor network is required to establish the common mode voltage at the inputs to the PMD module. With PECLQU input level of VCC, 2VCC/3, or 0Volts, the two outputs become independent and are defined as the Fiber Optic Interface Mode. In this mode, IOUT becomes a data output to a fiber optic LED driver connecting to the cathode. The data is NRZI encoded 100BASE-FX or 100BASE-SX symbols in 100Mbps mode. The data is Manchester encoded 10BASE-FL or OPT_IDL in 10Mbps mode and FLNP Bursts during Auto-Negotiation. IOUT# is optionally used to provide current peaking. If current peaking is implemented, typically a 1kΩ off-chip
iii) Pin 6 (AD10) iv) Pin 13 (TPOUTOFF#) v) Pin 14 (FOOUTOFF#)
vi) Pin 24 (PWRDWN#) vii) Pin 40 (BCKPLINK) c) LED Status indicators are available: i) ii) Pin 41 (TPINSPD) Pin 42 (FOINSPD)
iii) Pin 43 (TPANDT) iv) Pin 44 (FOANDT)
Thus the ML6652 is designed to self-configure in stand alone applications as well as act under the control of a microprocessor or other control device in a managed setting.
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DS6652-F-02
�ML6652
OPERATING MODES
resistor is connected to ground and a 1nf capacitor is connected to IOUT to determine the peaking current waveform. If peaking is not implemented, IOUT# should be connected directly to VCC. The preferred mode of operation is PECL/LVPECL differential outputs. The default mode of operation is set by PECLQU (pin 8). POWER DOWN MODE Enabled by setting PWRDWN# (pin 24) all circuits are powered down, all internal control logic is reset, and output currents are turned off. 3µs to 8µs after the low to high transition (trailing edge) of PWRDWN# the logic levels at configuration input pins DUPLEX (pin 25), SPEED (pin 27), PECLTP (pin 7), PECLQU (pin 8), AD4LIW (pin 4), and BCKLINK (Pin 40) are latched in the ML6652 and all management control register bits are reset. Enabled by setting management register bit high, all circuits are powered down, (except the management interface) all internal control logic is reset and output currents are turned off. Control input pins DUPLEX, SPEED, PECLTP, PECLQU, and AD4LIW are not relatched and management control register bits are not reset. LOOPBACK MODE Loopback of both the twisted pair inputs and fiber optic inputs to their respective differential outputs is possible with the ML6652. Enabled by setting management register bit , the twisted pair input signal at TPINP (pin 10) and TPINN (pin 11) are looped back to TPOUTP (pin 1) and TPOUTN (pin 3). The clock/data PLL is normally included in the loopback path. Setting management register bit PLLPBK# active (low) removes the PLL from the loopback path. Enabled by setting management register bit , the fiber input signal at FOINP (pin 33) and FOINN (pin 32) are looped back to IOUT (pin 21) and IOUT# (pin 22). The clock/data PLL is normally included in the loopback path. Setting management register bit PLLLPBK# active (low) removes the PLL from the loopback path. SCRAMBLER/DESCRAMBLER The scrambler and descrambler functions are enabled in the 100Mbps signal paths by setting the management register bit . The scrambler and descrambler are compliant with the Fiber Distributed Data Interface Twisted Pair-Physical Media Dependent (FDDI TP-PMD) standard ANSI X3T9.5 PMD/312. Setting management register bit forces the 11-bit scrambler register state to 00000000011(bin). Clearing returns the scrambler register to normal operation. The default state for is logic 0 or normal scrambler operation. OUTPUT OFF MODE Either the twisted pair outputs or the fiber optic outputs can be turned off by a control input pin or a management register bit. Disabling either differential output results in the output pair being turned off and the data output pins entering a high impedance state. The twisted pair differential output TPOUTP and TPOUTN is turned off by setting TPOUTOFF# low or management register bit high. The fiber optic differential output IOUT and IOUT# is turned off by setting FOOUTOFF# low or management register bit high. BACKUP LINK MODE A backup link mode of operation is available when the primary fiber optic link is down. It can only be enabled in the 100Mbps only, non-loopback mode of operation configured by SPEED (pin 27) input level set to VCC. Two ML6652 devices are required to implement the backup link mode of operation with one driving the primary fiber optic link and the second driving the backup or secondary fiber optic link. If a backup fiber optic link mode of operation is not implemented, BCKPLNK (pin 40) is connected to VCC. Backup Link Mode is enabled in the primary ML6652 by connecting a 10kΩ resister in series with an LED from BCKPLNK (pin 40) with the LED cathode to ground. Configuring the two ML6652 media converters simply requires BCKPLNK (pin 40) of the primary device to be connected to TPOUTOFF# of the secondary device. A second configuration is suggested to avoid confusion; that is Pin 40 (BCKPLINK) of the primary ML6652 is connected to both pin 13 (TPOUTOFF#) and 14 (FOOUTOFF#) of the secondary ML6652, disabling both copper and fiber outputs. A third configuration, if Pin 24 (PWRDWN#) of the secondary ML6652 is not being used to control power usage by the system (for example in a stand alone configuration without system microprocessor control) Pin 40 (BCKPLINK) of the primary ML6652 can be connected to Pin 24 (PWRDWN#) of the secondary ML6652, powering down the secondary ML6652 to save power. The primary link is not functioning if a Far End Fault (FEF) signal is received on the fiber optic differential input pair FOINP and FOINN as defined in clause 24 of IEEE Std. 802.3-1998, or when the fiber optic signal does not meet the 100Mbps signal detection constraints. When Backup Link Mode is enabled, the input and output signal dependencies are related as shown in Table 8.
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�ML6652
OPERATING MODES
Input Signal at pins Input Signal at pins FOINP/FOINN TPINP/TPINN FOINSPD Output: Input Speed Indicator Output Level Good 100Mbps signal and not FEF FEF Pattern Not good 100Mbps signal Not good 100Mbps signal BCKPLINK Output: Enabler of Secondary Link Secondary Twisted Pair Output High Impedance Enabled Enabled Enabled Output Signal at pins IOUT/IOUT# TPINP/TPINN Equivalent TPINP/TPINN Equivalent FEF Pattern High Impedance
LED Cathode LED Cathode Output Level to Ground to Ground On On Off Off Low High High High Off On On On
NA NA Good 100Mbps signal Not good 100Mbps signal
High High Low or High-Z Low or High-Z
Table 8. LED Interface The recommended LED configuration for Pins 41 (TPINSPD) and 42 (FOINSPD) is shown in Figure 4 and Table 9. Note: R2 may be as low as 511Ω to insure only one LED at a time will be on.
VCC
LED's Von
R1
R1 100 150 200
R2 1.2K 1.2K 1K
R3 100 150 200
2.1-2.2V
R2 To pin 41 or 42
1.8-1.9V
R3
1.7V
Figure 4.
Table 9. LED Colors vs. Resistor Values for Figure 4
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�ML6652
CONTROL REGISTERS
Control Registers Register 31 ADDR 11111 (bin) 1F (hex) All bits are R/W All bits default to 0
Bit 15 Name Power Down Description R/W Setting bit to 1 powers down all circuits and resets all R/W control logic. Register bits are not reset (except the management interface) and new configuration data is not loaded Setting bit to 1 turns off the output stage of the Fiber Optic R/W driver leaving the output pins in a high impedance state. Setting bit to 1 creates the exact same results as a 0 input on FOUTOFF# Setting bit to 1 turns off the output stage of the twisted pair R/W line driver leaving the output pins in a high impedance state. Setting bit to 1 creates exact same result as 0 input on TPOUTOFF# Setting bit to 1 directs TPINP (pin 10) and TPINN (pin 11) to loop back to TPOUTP (pin 1) and TPOUTN (pin 3). Including the PLL in the 100Mbps signal path is controlled by , PLLLPBK# Setting bit to 1 directs FOINP (pin 33) and FOINN (pin 32) to loop back to IOUT (pin 21) and IOUT# (pin 22). Including the PLL in the 100Mbps signal path is controlled by PLLLPBK#. Setting bit to 1 removes the clock/data recovery PLL from the signal path during 100Mbps loop back modes R/W Default 0
14
FOOUTOFF
0
13
TPOUTOFF
0
12
LPBKTOTP
0
11
LPBKTOFO
R/W
0
10 7-4 3-0
PLLLPBK# Reserved Reserved
R/W
0
Register 30 ADDR 11110 (bin) 1E (hex) All bits are R/W
Bit 15 Name ADVERTHD# Description Setting bit to 1 AND TRANSPARENT# set to 1 causes Half Duplex capability to be advertised in FLP bursts Setting bit to 0 AND TRANSPARENT# set to 1 causes Half Duplex capability to not be advertised in FLP bursts Setting TRANSPARENT# to 0 causes ADVERTHD# to be ignored Setting bit to 1 disables detection of FLNP and FLP bursts R/W R/W Default 0
14
DSBLAN
R/W
Set by SPEED (pin 27) 0
13
RESET
Setting this bit to 1 causes all configuration pins to be read and all register bits to be initialized 3 to 8µs after the bit is returned to a 0. The bit is self clearing Setting this bit to 1 enables the Link Integrity Warning function
R/W
12
LIW
R/W
Set by AD4LIW (pin 4) Set by DUPLEX (pin 25) Set by DUPLEX (pin 25)
11
TRANSPARENT#
Setting bit to 1 enables NON-TRANSPARENT Mode of operation Setting bit to 0 enables TRANSPARENT Mode of operation Setting bit to 0 and TRANSPARENT# set to 1 causes Full Duplex capability to be advertised in FLP bursts Setting bits to 1 and TRANSPARENT# set to 0 causes Full Duplex capability to not be advertised in FLP bursts Setting TRANSPARENT# to 0 causes ADVERFTD# to be ignored
R/W
10
ADVERTFD#
R/W
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�ML6652
CONTROL REGISTERS
Control Registers Register 30 Continued
Bit 9 Name SINGLESPEED Description Setting this bit to 1 enables only a single data rate R/W R/W Default Set by SPEED (pin 27)
8
SEL 10Mbps
Setting bit to 1 and SINGLESPEED is 1 R/W Set by enables only 10Mbps data rate SPEED Setting bit to 0 and SINGLESPEED enables only 100Mbps data rate (pin 27) Setting bit to 1 causes the interface at FOINP (pin 33), FOINN (pin 32), IOUT (pin 21), and IOUT# (pin 22) to be PECL/LVPECL compatible R/W Set by (pin 8)
7
PECLQU
6
LONGWL
Setting bit to 1 assumes optical wavelength to be 1300nm R/W Set by Setting this bit to 0 assumes optical wavelength to be 850nm when the PECLQU quantizer/fiber optic LED driver are used. (pin 8) If PECLQU is set to 1 or SHORTFO is set to 1 LONGWL is ignored Setting bit 1 sets up the signal detection circuit for a R/W Set by fiber maximum link distance of 300 meters in both 10Mbps and PECLQU 100Mbps modes when the quantizer/fiber optic LED driver is used. (pin 8) Setting bit to 0 sets up the signal detection circuit for a maximum link distance of 2Km, when the quantizer/fiber optic LED driver are used. If PECLQU is set to 1 SHORTFO is ignored Setting bit to 1 causes TPOUTP (pin 1) and TPOUTN (pin 3) R/W Set by output current to be reduced to 25% of the standard twisted pair PECLTP output current. The output remains 100BASE-TX, 10BASE-T, or FLP Bursts. (pin 7) If PECLTP is set to 1, LOWITPOUT is ignored Setting bit to 1 causes the interface at TPINP (pin 10), TPINN (pin 11), TPOUTP (pin 1), and TPOUTN (pin 3) to be PECL or PECL compatible Setting bit to 1 sets up the twisted pair interface receiver circuit for a maximum link distance of 10 meters, bypassing the Unshielded Twisted Pair (UTP-5) equalizer. Setting bit to 0 maintains the equalizer in the signal path. If PECLTP is set to 1, SHORTTP is ignored Setting bit to 1 enables scrambler/descrambler function. Setting bit to 0 disables both functions R/W Set by PECLTP (pin 7) Set by PECLTP (pin 7)
5
SHORTFO
4
LOWITPOUT
3
PECLTP
2
SHORTTP
R/W
1
SCRON
R/W
Set by PECLTP (pin 7) 0
0
RSTSCR
Setting bit to 1 forces the scrambler register state to 00000000011 (binary) R/W Setting bit to 0 releases logic in the scrambler block
REGISTER 28
Bit 15-5 4 3 2 1 0 Name Reserved
ADDR 11100 (bin)
1C (hex) All bits are Read Write
R/W R/W R/W R/W R/W R/W R/W R/W Default 0 0 0 0 0 0 0
Description Set high (1) reduces rise and fall times of MLT-3 outputs on pins TPOUTP (1) and TPOUTN(3) Set high (1) disables 100 Mbps PLL frequency sensing circuits Set high (1) disables Far-End-Fault pattern generation and detection. Set high (1) disables Backup Link function and overwrites BCKPLINK (40) configuration setting.
SLOWMLT3 FSENSEDIS FEFDSBL BCKPDIS Reserved
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�ML6652
STATUS REGISTERS
Status Registers Register 27 ADDR 11011 (bin) 1B (hex) All bits are Read Only
Bit 15 14 Name FOFORCELO FOBADFREQ Description This bit set high when the fiber optic input PLL follows the local oscillator This bit set high when there is a large difference between the frequency of the reference clock and the frequency of the VCO of the fiber optic input PLL. The low frequency threshold is between 121 and 123MHz, and the high frequency threshold is between 127 and 129MHz. This indicator is disabled when "FSENSEDIS" bit is 1 or when the filter of the PLL is being reset. This bit set high when the Far End Fault (FEF) pattern is detected at the fiber optic input interface This bit set high when the twisted pair input PLL follows the local oscillator This bit set high when there is a large difference between the frequency of the reference clock and the frequency of the VCO of the twisted pair input PLL. The low frequency threshold is between 121 and 123MHz, and the high frequency threshold is between 127 and 129MHz. This indicator is disabled when "FSENSEDIS" bit is 1 or when the filter of the PLL is being reset. This bit set high when the descrambler is enabled and the seed is not updated for 1.3ms to 2ms. This bit set low when the seed is updated. The high value is latched until it’s read. Default is 0 This bit set high when the twisted pair link is up. This bit is latched low until read. It only applies to NON-TRANSPARENT Mode. It is always low in TRANSPARENT Mode Auto-Negotiation Complete. This bit set high indicates that the Auto-Negotiation process on the twisted pair link is completed. It only applies to NON-TRANSPARENT Mode. It is always low in TRANSPARENT Mode This bit set high indicates that 100Mbps signal is being detected at the twisted pair input interface This bit set high indicates that 10Mbps signal is being detected at the twisted pair input interface This bit set high indicates that a data packet has been detected at the twisted pair input. This bit is latched high until it’s read. This bit is always low if both TPIN10 and TPIN100 are low This bit set high, when FLP Bursts are detected at the twisted pair input interface. It is also set high when FLNP Bursts are detected at the twisted pair interface when PECL mode is selected for it This bit set high when 100BASE-FX or 100BASE-SX signal is being detected at the fiber optic input interface This bit set high when 10BASE-FL signal is being detected at the fiber optic input interface This bit set high when a data packet has been detected at the fiber optic input. This bit is latched high until it’s read. This bit is always low if both FOIN10 and FOIN100 are off This bit set high when FLNP Bursts are detected at the fiber optic input interface
13 12 11
FEFDETECT TPFORCELO TPBADFREQ
10
NOSEED
9 8
TPLINKSTATUS ANCOMPL
7 6 5
TPIN100 TPIN10 DATACTOF
4
FLP
3 2 1 0
FOIN100 FOIN10 DATAFTOC FLNP
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�ML6652
ELECTRICAL CHARACTERISTICS ABSOLUTE MAXIMUM RATINGS
Absolute maximum ratings are those values beyond which the device could be permanently damaged. Absolute maximum ratings are stress ratings only and functional device operation is not implied. Junction Temperature ............................................. 150°C Storage Temperature Range ..................... -65°C to 150°C Lead Temperature (Soldering, 10s) ......................... 240°C Thermal Resistance (θJA) ......................... 56°C/W(TQPF) Thermal Resistance (θJA) ................ 33°C/W(LPCC/QFN) Input Voltage Range ............ Ground - 0.3V to VCC +0.3V Output Current TPOUTP/TPOUTN ............................................... 80mA IOUT ................................................................ 120mA IOUT# ............................................................. -100mA All other inputs ................................................... 10mA
OPERATING CONDITIONS
Power Supply Voltage Range ............................ 3.3V ±5% All VCC supply pins must be within 0.1V of each other Operating Temperature Range ......................................... ML6652CH/ML6652CM ............................... 0°C to 70°C ML6652EH/ML6652EM ............................ -20°C to 85°C
ELECTRICAL TABLES
SYMBOL PARAMETER CONDITIONS MIN TYP MAX UNITS POWER SUPPLY CURRENT Supply current transmitting RTTP= 2KΩ 100BASE-TX and 100BASE-SX data packets RTOP=1.4KΩ Current into all VCC pins Supply current transmitting 10BASE-T and RTTP= 2KΩ 10BASE-FL data packets RTOP=1.4KΩ Current into all VCC pins Power Down mode current RTTP= 2KΩ RTOP=1.4KΩ Current into all VCC pins 150 200 mA
100
120
mA
2
mA
Supply current transmitting 100Mbps signal RTTP= 2KΩ with 2 PECL interfaces RTOP=1.4KΩ Current into all VCC pins Supply current transmitting 10Mbps signal with 2 PECL interfaces TTL INPUTS: MDC AND MDIO Input High Voltage Input Low Voltage Input High Leakage Current Input Low Leakage Current VIN = 2.4V VIN = .4V -10 -10 2 RTTP= 2KΩ RTOP=1.4KΩ Current into all VCC pins
120
150
mA
60
100
mA
V 0.8 10 10 V µA µA
TTL OUTPUTS: MDIO, FOINSPD, TPINSPD, AND BCKPLINK# Output High Voltage Output Low Voltage Sourcing 2mA Sinking 2mA 2.4 0.4 V V
CMOS INPUTS: REFCLK, PWRDWN#, TPOUTOFF#, AND FOUTOFF# Input High Voltage Input Low Voltage Input High Leakage Current Input Low Leakage Current VIN = 2.4V VIN = 0.4V -10 -10 2 0.8 10 10 V V µA µA
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ELECTRICAL TABLES (CONTINUED)
SYMBOL PARAMETER CONDITIONS MIN TYP MAX UNITS 3-LEVEL CONFIGURATION INPUTS: SPEED AND DUPLEX High Input Level Middle Input Level Low Input Level 4-LEVEL CONFIGURATION INPUTS: PECLTP, PECLQU, AF4LIW, AD32, AD10 High Input Level Middle High Input Level Middle Low Input Level Low Input Level STATUS LED OUTPUTS PIN 43 AND PIN 44 Output “On” Current (Voltage at pin = 0.7V & VCC-0.7V) Output “Off” Current (Voltage at pin = 0.7V & VCC-0.7V) STATUS LED OUTPUTS PIN 41 AND PIN 42 Output “On” Current (Voltage at pin = 0.7V & VCC-0.7V) Output “Off” Current (Voltage at pin = 0.7V & VCC-0.7V) PECL/LVPECL COMPATIBLE INPUTS: TPINP, TPINN, FOINP, FOINN Input High Voltage Input Low Voltage Differential Input High Voltage Differential Input Low Voltage Input High Current Input Low Current PECL/LVPECL COMPATIBLE INPUTS: REQSD, SDFO, SDTH Input High Voltage Input Low Voltage Differential Input High Voltage Differential Input Low Voltage Input High Current Input Low Current PECL/LVPECL COMPATIBLE OUTPUTS: TPOUTP, TPOUTN, IOUT, IOUT# Output High Voltage Output Low Voltage Differential Output Current Differential Output Current Imbalance With recommended resistor network. Refer to pin description With recommended resistor network. Refer to pin description With recommended resistor network. Refer to pin description With recommended resistor network. Refer to pin description VCC-0.96 1.3 9.5 -0.1 5.3 VCC-1.73 11.5 0.1 V V mA mA 0 -100 VCC-1.225 1.5 250 -250 100 0 VCC VCC-1.3 V V mV mV mA µA 0 -100 VCC-1.225 1.5 200 -200 100 0 VCC VCC-1.3 V V mV mV mA µA -10 3 4.1 10 mA µA -10 3 4.1 10 mA µA 0.9 x VCCD 0.6 x VCCD 0.2 x VCCD 0 (GNDD) VCCD 0.8 x VCCD 0.4 x VCCD 0.1 x VCCD V V V V 0.9 x VCCD 0.4 x VCCD 0 (GNDD) VCCD 0.6 x VCCD 0.1 x VCCD V V V
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ELECTRICAL TABLES (CONTINUED)
SYMBOL PARAMETER CONDITIONS MIN TYP MAX UNITS TWISTED PAIR RECEIVER: TPINP, TPINN, REQSD Common-Mode Voltage Differential Input Resistance REQSD Input Current Between TPINP and TPINN 5KΩ to ground, 25°C 100BASE-TX, RTTP = 2KΩ 100BASE-TX, RTTP = 2KΩ Transmitting 10BASE-T Packets, RTTP = 2KΩ Transmitting 10BASE-T Packets, RTTP = 2KΩ Twisted Pair Transmitter Turned Off RTTP=2KΩ 35 65 VCC-1.0 1.8 110 VCC-0.4 2.8 330 V KΩ µA
TWISTED PAIR TRANSMITTER: TPOUTP, TPOUTN, RTTP Differential Peak Output Current Differential Current Error Differential Peak Output Current Average Total Output Current [I(TPoutP)+I(TPoutN)]/2 Off State Output Current RTTP Input Current FIBER OPTIC RECEIVER: FOINP, FOINN, CQOS Common-Mode Voltage Differential Input Resistance FIBER OPTIC TRANSMITTER: IOUT, IOUT#, RTOP High Light State Output Current Low Light State Output Current Off-State Output Current MANAGEMENT INTERFACE tCPER tCPW TSPWS tSPWH tSPRS tSPRH Period of clock at MDC Pulse Width of clock at MDC MDIO Data Valid Before MDC Rising Edge Write Setup Time MDIO Data Valid After MDC Rising Edge Write Hold Time MDIO Data Valid Before MDC Rising Edge Read Setup Time MDIO Data Valid After MDC Rising Edge Read Hold Time Synchronization update timer LATENCY Twisted Pair Input to Fiber Optic Output Twisted Pair Input to Fiber Optic Output Fiber Optic Input to Twisted Pair Output Fiber Optic Input to Twisted Pair Output REFERENCE CLOCK: REFCLK Frequency Tolerance Differential Rise and Fall Time 25MHz Nominal -100 3 +100 ppm ns PECL/LVPECL COMPATIBLE OUTPUTS: TPOUTP, TPOUTN, IOUT, IOUT# 10 to 90%, 5pF at each pin 100BASE-SX 10Mbps 100Mbps 10Mbps 100Mbps 100 100 100 100 ns ns ns ns 1.4V Crossing 1.4V Crossing 1.4V Crossing 1.4V Crossing 1.4V Crossing 1.4V Crossing 80 30 10 10 30 0 ns ns ns ns ns ns RTOP = 1.4KΩ RTOP = 1.4KΩ Fiber Optic Transmitter Turned Off 100 10 ±10 mA mA µA VCC-1.35 900 V Ω 19 ±1 55 140 10 0.6 23 mA mA mA mA µA mA
DESCRAMBLER 100Mbps 1.3 2 ms
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ELECTRICAL TABLES (CONTINUED)
SYMBOL PARAMETER Signal Detect Assertion Threshold Signal Detect De-assertion Threshold Amplitude Sensitivity Threshold Packet Activity Assertion Threshold Packet Activity De-assertion Threshold CONDITIONS 100BASE-TX 100BASE-TX Link pulses 10BASE-T 10BASE-T MIN TYP 0.8 0.4 0.52 0.55 0.42 3 MAX UNITS Vp-p Vp-p Vp Vp Vp ns TWISTED PAIR RECEIVER: TPINP AND TPINN
TWISTED PAIR TRANSMITTER: TPOUTP AND TPOUTN Differential Rise and Fall Time 10 to 90% 100BASE-TX, 50Ω resistors to VCC Transmitting unscrambled “H” symbols FIBER OPTIC RECEIVER: FOINP AND FOINN Signal Detect Assertion Threshold Low bandwidth, 10Mbps, Short Wave Length Low bandwidth, 10Mbps, Long Wave Length High bandwidth, 100Mbps, Short Wave Length High bandwidth, 100Mbps, Long Wave Length Signal Detect Assertion Threshold (continued) Short link distance (300m, High bandwidth path, 10 or 100Mbps) Voltage Threshold Hysteresis 10Mbps or Auto-Negotiation 100Mbps Input Referred Offset Input Referred Noise 10BASE-FL 100BASE-SX FIBER OPTIC RECEIVER: FOINP AND FOINN Input Amplifier –3 dB Bandwidth 10BASE-FL 100BASE-SX 35 180 MHz MHz 15 20 35 0.1 50 150 mV % % mV µV µV 6 10 15 10 mV mV mV mV
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DS6652-F-02
�ML6652
PHYSICAL DIMENSIONS
Package: H44-10 44-Pin (10 x 10 x 1mm) TQFP
0.472 BSC (12.00 BSC) 0.394 BSC (10.00 BSC) 34 1 PIN 1 ID 0.394 BSC (10.00 BSC) 0.472 BSC (12.00 BSC) 0º - 8º 0.003 - 0.008 (0.09 - 0.20)
inches (millimeters)
23 12 0.032 BSC (0.80 BSC) 0.012 - 0.018 (0.29 - 0.45) 0.048 MAX (1.20 MAX) 0.037 - 0.041 (0.95 - 1.05)
0.018 - 0.030 (0.45 - 0.75)
SEATING PLANE
PACKAGE: M44-7 44-PIN (7 x 7 x 1mm) LPCC
7.00 ± 0.10 44 PIN 1 ID 1 33 EXPOSED PAD 5.8 x 5.8 BSC 5.00 BSC 0.50 BSC 0.30-0.50
7.00 ± .010
11
22 TOP VIEW
0.18-0.30 BOTTOM VIEW
0.90 ± 0.10 SEATING PLANE .02-.05 SIDE VIEW 0.20 REF.
ORDERING INFORMATION
PART NUMBER ML6652CH ML6652EH ML6652CM ML6652EM TEMPERATURERANGE 0°C to 70°C -20°C to 85°C 0°C to 70°C -20°C to 85°C PACKAGE 44 Pin TQFP 44 Pin TQFP 44 Pin LPCC/QFN 44 Pin LPCC/QFN DATASHEET DS6652-F-02 DS6652-F-02 DS6652-F-02 DS6652-F-02 PUBLICATION DATE January, 2004 January, 2004 January, 2004 January, 2004
Headquarters: 2050 Concourse Drive, San Jose, CA 95131 (408) 433-5200 www.microlinear.com
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DS6652-F-02
�
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