GS-12-0984 [FCI-CONNECTOR]

TRX10GDL0610C3 (SFP+ LRM Module); TRX10GDL0610C3 （ SFP + LRM模块）


型号：	GS-12-0984
厂家：	FCI CONNECTOR
描述：	TRX10GDL0610C3 (SFP+ LRM Module) TRX10GDL0610C3 （ SFP + LRM模块）
文件：	总16页 (文件大小：262K)
中文：	中文翻译
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NUMBER

TITLE

TYPE

GS-12-0984

Product Specification

PAGE

REVISION

DATE

1 of 16

AUTHORIZED BY

TRX10GDL0610C3 (SFP+ LRM Module)

J. Blank

27 Apr. 2011

CLASSIFICATION

UNRESTRICTED

Product Specification

10 GBd SFP+ 1310 nm LRM Linear Transceiver

TRX10GDL0610C3

Product Features:

Hot pluggable SFP+ optical transceiver

Programmable input equalizer

Data rate transparent from 9.95 to 11.3 Gbps

Low power consumption, 0.75 W typ.

Excellent EMI performance

Transmission distance up to 220 m MMF

0 °C to +70 °C case operating temperature

1310 nm DFB laser

Duplex LC connector

Laser Class 1

RoHS 6/6 compliant

Applications:

10G Ethernet 10GBASE-LRM

FCI’s SFP+ optical transceiver TRX10GDL0610C3 is a module for transmission over legacy

multimode fibers. It complies with the SFP+ MSA specifications (SFF-8431 and SFF-8432) and

with 10GBASE-LRM per IEEE 802.3. It is RoHS 6/6 compliant per Directive 2002/95/EC and laser

class 1 safety compliant per IEC/CDRH. The sub-Watt power consumption and the excellent EMI

performance allow system design with high port density. An adjustable input equalizer allows to

overcome host board high frequency signal loss and to optimize module performance in interaction

with a host board transmit equalizer.

Supported Standards

Application

10G Ethernet

Standard

Data Rate

IEEE 802.3 10GBASE-LRM

10.3125 Gbps

STATUS:Released

Information in this document is believed to be reliable. However, no responsibility is assumed for possible inaccuracy or omission.

NUMBER

TITLE

TYPE

GS-12-0984

Product Specification

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DATE

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TRX10GDL0610C3 (SFP+ LRM Module)

J. Blank

27 Apr. 2011

CLASSIFICATION

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Table of Contents

Table of Contents ......................................................................................................................................... 2

Functional Description................................................................................................................................. 3

Electrical Characteristics............................................................................................................................. 4

Absolute Maximum Ratings......................................................................................................................... 4

Recommended Operating Conditions.......................................................................................................... 4

Low Speed Characteristics.......................................................................................................................... 4

SFI Module Transmitter Input Characteristics.............................................................................................. 5

SFI Module Receiver Output Characteristics............................................................................................... 5

Optical Characteristics................................................................................................................................. 6

General Parameters.................................................................................................................................... 6

Optical Transmitter...................................................................................................................................... 6

Optical Receiver.......................................................................................................................................... 6

Application Information................................................................................................................................ 7

Connector Pinout......................................................................................................................................... 7

Electrical Pin Definition................................................................................................................................ 7

Application Schematics ............................................................................................................................... 8

Interfacing the Transceiver.......................................................................................................................... 9

Digital Optical Monitoring ............................................................................................................................ 9

Tx Input Equalizer Adjustment................................................................................................................... 10

Programmability Feature Code.................................................................................................................. 11

Passcode Entry and Modification .............................................................................................................. 11

Module Outline.......................................................................................................................................... 12

Module Safety & Compliance..................................................................................................................... 13

ESD & Electromagnetic Compatibility....................................................................................................... 13

Eye Safety ................................................................................................................................................... 14

Ordering Information.................................................................................................................................. 15

STATUS:Released

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NUMBER

TITLE

TYPE

GS-12-0984

Product Specification

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DATE

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J. Blank

27 Apr. 2011

CLASSIFICATION

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Functional Description

The transmit path is based on an AC coupled 100 ohm differentially terminated driver coupled to a 1310 nm

DFB laser. Laser output may be disabled by pulling the transmitter disable (TX_DIS) line high which is its

default state when leaving the input floating due to an internal pull-up resistor. A fault condition is raised

upon detection of an abnormal laser state.

The receive path consists of a receiver optical sub-assembly (ROSA) for optical to electrical conversion,

followed by a linear amplifier to boost the electrical signal. A loss of signal (LOS) status line provides

information to facilitate easy link detection.

Complete digital optical monitoring is implemented in compliance to SFF-8472 and made accessible via the

2-wire interface providing real time information about all important module parameters and status

information.

STATUS:Released

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NUMBER

TITLE

TYPE

GS-12-0984

Product Specification

PAGE

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DATE

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TRX10GDL0610C3 (SFP+ LRM Module)

J. Blank

27 Apr. 2011

CLASSIFICATION

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Electrical Characteristics

Absolute Maximum Ratings

Rating

Conditions

Symbol

Min

Max

Units

Storage Ambient Temperature

Powered Case Temperature

Operating Relative Humidity

Supply Voltage Range

-40

+85

+75

°C

ϑ_stg

ϑ_c

Non condensing

V_CCT/R

-0.5

4.0

Any stress beyond the maximum ratings may result in permanent damage to the device. Specifications are guaranteed only under

recommended operating conditions.

Recommended Operating Conditions

Parameter

Conditions

Symbol

Min

Typ

Max

Units

Operating Case Temperature

Power Supply Voltage

+70

3.465

4.0

°C

ϑ_Case

V_CCT/R

V_CM

3.135

-0.5

3.30

DC Common Mode Voltage

SFI Signals

Low Speed Characteristics

Parameter

Conditions

Symbol

Min

Typ

Max

Units

Supply Current Transmitter

Supply Current Receiver

Total Supply Current

@ V_CCT

@ V_CCR

@ V_CCT/R

I_VCCTX

I_VCCRX

I_VCC

150

280

1.0

0.4

Power Consumption

0.75

V_OL

V_OH

Host Vcc Range 2 V – 3.47 V,

_{OL_max}= 4 mA

Host_

Vcc –

0.5

Host_

Vcc +

0.3

TX_Fault, RX_LOS

TX_Dis, RS0, RS1

V_IL

V_IH

-0.3

0.8

Low Voltage TTL

VccT +

0.5

VccT

* 0.3

VccT +

0.5

2.0

V_IL

-0.3

VccT

* 0.7

V_IH

Host Vcc Range 3.13 V – 3.47 V,

SCL, SDA

_{OL_max}= 4 mA

V_OL

0.0

0.4

Host_

Vcc –

0.5

Host_

Vcc +

0.3

V_OH

STATUS:Released

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NUMBER

TITLE

TYPE

GS-12-0984

Product Specification

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TRX10GDL0610C3 (SFP+ LRM Module)

J. Blank

27 Apr. 2011

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SFI Module Transmitter Input Characteristics

Parameter

Nominal Data Rate

Conditions

Symbol

Min

Typ

Max

Units

10.3125

Gbd

Reference Differential Input

Impedance

Z_d

100

Ω

Input AC Common Mode Input

Voltage

(RMS)

Differential Input Voltage Swing

2 x |V(TD+) – V(TD-)|

0.01 – 4.1 GHz

V_ID

150

900

)

Differential Input S-parameter

SDD11

4.1 – 11.1 GHz

)

Differential to Common Mode

Conversion ³)

0.01 – 11.1 GHz

SCD11

-10

Total Jitter

DDJ

0.28 UI(p-p)

Data Dependent Jitter

Uncorrelated Jitter

0.1

UI(p-p)

RMS

0.023

1) Reflection coefficient given by equation SDD11(dB) < -12 + 2 x SQRT(f), with f in GHz.

2) Reflection coefficient given by equation SDD11(dB) < -6.3 + 13 x Log10(f/5.5), with f in GHz.

3) Common mode reference impedance is 25Ω.

SFI Module Receiver Output Characteristics

Parameter

Nominal Data Rate

Conditions

Symbol

Min

Typ

Max

Units

10.3125

Gbd

Reference Differential Output

Impedance

Z_d

100

Ω

Termination Mismatch

∆Z_d

(RMS)

Output AC Common Mode Voltage

7.5

R_Load= 100 ohm,

P_{IN_OMA}≥ -8 dBm

Differential Output Amplitude

V_OSPP

180

250

400

2 x |V(RD+) – V(RD-)|

0.01 – 4.1 GHz

)

Differential Output S-parameter

SDD22

4.1 – 11.1 GHz

0.01 – 2.5 GHz

2.5 – 11.1 GHz

)

Common Mode Output Return Loss⁴)

SCC22

dWDP

-3

Receiver Waveform Distortion

Penalty

1.5

1) Reflection coefficient given by equation SDD22(dB) < -12 + 2 x SQRT(f), with f in GHz.

2) Reflection coefficient given by equation SDD22(dB) < -6.3 + 13 x Log10(f/5.5), with f in GHz.

3) Reflection coefficient given by equation SCC22(dB) = -7 + 1.6 x f, with f in GHz

4) Common mode reference impedance is 25Ω.

STATUS:Released

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NUMBER

TITLE

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GS-12-0984

Product Specification

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Optical Characteristics

General Parameters

Parameter

Min Modal

Bandwidth

(MHz*km)

Typical

10GBd

Conditions

Symbol

Min

Units

62.5 µm FDDI MMF

62.5 µm OM1 MMF

50 µm OM2 MMF

50 µm OM3 MMF

Operating Range

l_OP

0.5

220

Optical Transmitter

Parameter

Center Wavelength

Conditions

Symbol

Min

Typ

Max

1330

3.6

Units

1290

1310

λ_TRP

∆λ

P_avg

P_OMA

RMS Spectral Width

Average Launch Power

Optical Modulation Amplitude

Extinction Ratio

-6.5

-4.5

3.5

0.5

dBm

1.5

Relative Intensity Noise

RIN

-128

dB/Hz

Optical Receiver

Parameter

Center Wavelength

Conditions

Symbol

λ_C

Min

Typ

Max

1355

0.5

Units

1260

1310

Average Input Power

Overload Power in OMA

P_avg

dBm

P_{MAX_OMA}

1.5

PRBS 2³¹-1, BER < 1*10^-12

@10.3125GBd

Receiver Sensitivity

P_IN(OMA)

-16

-13

dBm

PRBS 2³¹-1, BER < 1*10^-12

@ 10.3125GBd

Stressed Receiver Sensitivity

P_IN(OMA)

-11.5

-8.5

dBm

Stressed Receiver Sensitivity

Symmetrical Test

PRBS 2³¹-1, BER < 1*10^-12

@ 10.3125GBd

P_IN(OMA)

-11

-8

dBm

Assert

P_{avg_as}

P_{OMA_deas}

Hyst

-25

0.5

-13

-11

Loss of Signal

dBm

De-Assert

Loss of Signal Hysteresis

Note: The specified characteristics are met within the recommended range of operating. Unless otherwise noted, typical data are quoted

at nominal voltages and +25°C ambient temperature.

STATUS:Released

Information in this document is believed to be reliable. However, no responsibility is assumed for possible inaccuracy or omission.

NUMBER

TITLE

TYPE

GS-12-0984

Product Specification

PAGE

REVISION

DATE

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TRX10GDL0610C3 (SFP+ LRM Module)

J. Blank

27 Apr. 2011

CLASSIFICATION

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Application Information

Connector Pinout

Electrical Pin Definition

Logic

Symbol

Name / Description

Note

VeeT

Module Transmitter Ground

LVTTL-O

LVTTL-I

TX_Fault Module Transmitter Fault

TX_Dis

SDA

Transmitter Disable; Turns off transmitter laser output

2-Wire Serial Interface Data Line

LVTTL-I/O

LVTTL-I

SCL

2-Wire Serial Interface Clock

MOD_ABS (=MOD_DEF0) Module Absent, shorted to module ground

LVTTL-I

LVTTL-O

LVTTL-I

RS0

RX_LOS

RS1

Receiver Rate Select

Receiver Loss of Signal Indication Active LOW

Transmitter Rate Select

VeeR

RD-

Module Receiver Ground

CML-O

Receiver Inverted Data Output

Receiver Data Output

RD+

VeeR

VccR

VccT

VeeT

TD+

Module Receiver Ground

Module Receiver 3.3 V Supply

Module Transmitter 3.3 V Supply

Module Transmitter Ground

Transmitter Non-Inverted Data Input

Transmitter Inverted Data Input

Module Transmitter Ground

CML-I

TD-

VeeT

1. Module ground pins Vee are isolated from the module case.

2. Shall be pulled up with 1k-10k ohms to a voltage between 3.13 V and 3.47 V on the host board.

STATUS:Released

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NUMBER

TITLE

TYPE

GS-12-0984

Product Specification

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TRX10GDL0610C3 (SFP+ LRM Module)

J. Blank

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Application Schematics

Recommended electrical connections to transceiver are shown below. Pull-ups: 1k – 10k ohms.

STATUS:Released

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NUMBER

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GS-12-0984

Product Specification

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Interfacing the Transceiver

Communication is done by a serial 2-wire interface compatible to the I2C bus protocol. Refer to SFF-8472 for

a more detailed explanation of the registers:

Base Address A2h

Content

Base Address A0h

Content

Alarm & Warnings

Thresholds & Limits

External calibration

constants (not used)

Values from real time

diagnostic monitoring

Serial Transceiver ID as

defined in SFP MSA

0 - 55

0 - 95

96 - 127

FCI Specific

Reserved

56 - 95

128 - 255

96 – 119

120(LSB) –

123(MSB)

124(LSB) –

127(MSB)

Passcode change field

Passcode entry field

Customer specific, writable

area

128 – 247

248

249 - 253

254

Input equalizer setting

Reserved

Feature code

Reserved

255

Digital Optical Monitoring

The transceiver offers the ability to monitor important module parameter during operation. All five parameters

listed below are continuously monitored for getting information about the current module status. All data is

calibrated internally; there is no need for external post processing.

Temperature

Internally measured temperature data is represented as two’s complement of a signed 16-bit value in

increments of 1/256 °C over a range of -40 to +100 °C. Accuracy is better than +/-3 °C.

Supply Voltage (VCC)

Internally measured supply voltage. Represented as a 16-bit unsigned integer with the voltage defined as the

full 16 bit value (0 – 65535) with LSB equal to 100 µVolt, which yields to a total range of 0 to +6.55 Volts.

Accuracy is better than +/-3 %.

Laser Bias Current

The DFB laser bias current is represented as a 16 bit unsigned integer with the current defined as the full 16-

bit value (0 – 65535) with LSB equal to 2 µA. Accuracy is better than +/-10 %.

Optical Transmitter Power

TX output power measurement is based on internal monitor diode feedback. Represented as a 16-bit

unsigned integer with the power defined as the full 16 bit value (0 – 65535) with LSB equal to 0.1 µW.

Accuracy is better than +/-3 dB over a range of Pavg_minto Pavg_max

STATUS:Released

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NUMBER

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Product Specification

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Receiver Optical Power

RX input power measurement is based on photodiode average current. Represented as a 16-bit unsigned

integer with the power defined as the full 16 bit value (0 – 65535) with LSB equal to 0.1 µW. Accuracy is

better than +/-3 dB over a range of -13 dBm to 0.5 dBm.

Note: The specified characteristics are met within the recommended range of operating conditions regarding temperature and voltage.

Tx Input Equalizer Adjustment

The transceiver is equipped with an equalizer at the transmitter input (at the electrical module interface) to

compensate for high frequency signal loss on the host board printed circuit board (Host-PCB) into which the

transceiver is plugged and to allow performance optimization in interaction with an host board equalizers (if

there is one).

There are different module equalizer settings available to adjust the strength of the equalization which may

be selected according to the line length of Host-PCB signal tracks.

MSB

reserved

Content of Register 248 in Table A2h

Tx0 reserved reserved

LSB

reserved

Tx2

Tx1

reserved

of table A2h before (see paragraph Passcode Entry and Modification below). Reserved bits of register 248

should be written to 0. After power up, the module always comes up with its factory programmed default

equalizer setting.

Transmitter Input Signal Equalizer Settings:

Tx2

Tx1

Tx0

Description

Input equalizer off

Low equalization

Reserved

Default equalization (factory setting)

Reserved

X: don’t care

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NUMBER

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Programmability Feature Code

distinguish different implementations. This is a read only register.

MSB

Tx Equal.

Content of Register 254 in Table A2h

reserved reserved reserved I-Code2

LSB

I-Code0

reserved

I-Code1

Tx Equal.: is set to 1 if the transceiver supports programming of the Tx equalizer.

I-Code2…0: implementation code. Yields 001b at read out.

Passcode Entry and Modification

Write-access to the transceiver programmability features and to the customer specific writable area (128 –

247 of table A2h) is granted via a valid passcode which has to be written to the passcode entry field

(registers 124-127 of table A2h). Please contact FCI for the factory preset initial passcode. The passcode

may be changed to a proprietary one by entering the new one into the passcode change field (registers 120-

123 of table A2h) after a valid passcode has been written to the passcode entry field.

STATUS:Released

Information in this document is believed to be reliable. However, no responsibility is assumed for possible inaccuracy or omission.

NUMBER

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Product Specification

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Module Outline

All dimensions shown are in millimeters.

STATUS:Released

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NUMBER

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Product Specification

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Module Safety & Compliance

FCI’s SFP+ LRM module is designed to meet international standards and requirements. The module is

RoHS compliant according to the European Parliament requirements on the restriction of the use of

hazardous substances in electrical and electronic equipment (RoHS). The module optical output power

meets Class 1 requirements for laser safety.

Requirements

Standard

IEC 60950-1:2001

EN 60950-1:2001

Module Safety

RoHS 6/6 Directive 2002/95/EC

Amendment 4054 (2005/747/EC)

RoHS Compliance

CDRH 21 CFR 1040.10 and 1040.11 (according FDA)

IEC 60825-1 Rev2 2007 (according IEC)

Laser Safety (Class 1)

ESD & Electromagnetic Compatibility

Requirements

Standard

Value

FCC Part 15 B

EN 55022 Class B

CISPR 22

At least 6 dB

margin to

Class B limit

EMI (Emission)

30 MHz … 40 GHz

No bit errors

at sensitivity

limit

EMI (Immunity)

IEC 61000-4-3, 10 MHz … 1 GHz

≥ 2 kV

≥ 1 kV (SFI

signals)

EIA/JESD22-A114-B

MIL-STD 883C Method 3015.7

ESD (Electrical connector)

Air Discharge

EN61000-4-2, Criterion B

ESD (Module case)

≥ 15 kV

≥ 8 kV

Contact Discharge

EN61000-4-2, Criterion B

STATUS:Released

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NUMBER

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Product Specification

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Eye Safety

This laser based singlemode transceiver is a Class 1 product. It complies with IEC 60825-1 Edition 2 and

FDA performance standards for laser products (21 CFR 1040.10 and 1040.11) except for deviations

pursuant to Laser Notice 50, dated July 26, 2001.

CLASS 1 LASER PRODUCT

To meet laser safety requirements the transceiver shall be operated within the Absolute Maximum Ratings.

Note: All adjustments have been made at the factory prior to shipment of the devices. No maintenance or

alteration to the device is required. Tampering with or modifying the performance of the device will result in

voided product warranty. Failure to adhere to the above restrictions could result in a modification that is

considered an act of “manufacturing”, and will require, under law, recertification of the modified product with

the U.S. Food and Drug Administration (ref. 21 CFR 1040.10 (i)).

LASER EMISSION DATA

Product Top View

Laser

Emission

Wavelength

1310 nm

Maximum total output power

15.6 mW / 11.9 dBm

(as defined by IEC: within 7 mm aperture at 70 mm distance)

Beam divergence (full angle) / NA (half angle)

11° / 0.1 rad

STATUS:Released

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NUMBER

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Product Specification

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TRX10GDL0610C3 (SFP+ LRM Module)

J. Blank

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Ordering Information

Application

Standard

IEEE 802.3 10GBASE-LRM

Part Number

TRX10GDL0610C3

10G Ethernet

STATUS:Released

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NUMBER

TITLE

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GS-12-0984

Product Specification

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J. Blank

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REVISION RECORD

Rev Page

Description

EC#

Date

27 Apr. 2011

Initial version.

STATUS:Released

Information in this document is believed to be reliable. However, no responsibility is assumed for possible inaccuracy or omission.

GS-12-0984 [FCI-CONNECTOR]

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