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19-2207; Rev 1; 3/05

Low-Noise, Fibre Channel Transimpedance

Amplifiers

General Description

The MAX3275/MAX3277 transimpedance amplifiers

provide a compact low-power solution for communica-

tion up to 2.125Gbps. They feature 300nA input-

referred noise at 2.1GHz bandwidth (BW) with 0.85pF

input capacitance. The parts also have 2mA

P-P

input overload.

The MAX3277 is identical to the MAX3275, but with the

output polarities inverted for optimum packaging flexi-

bility. Both parts operate from a single 3.3V supply and

consume only 83mW. The MAX3275/MAX3277 are

compact 24mil x 47mil die and require no external com-

pensation capacitor. A space-saving filter connection is

provided for positive bias to the photodiode through an

on-chip 600Ω resistor to V

. These features allow

easy assembly into a TO-46 or TO-56 header with a

photodiode.

The MAX3275/MAX3277 and MAX3274 limiting ampli-

fiers provide a two-chip solution for dual-rate, fibre

channel receiver applications.

Up to 2.125Gbps (NRZ) Data Rates

7ps

P-P

Deterministic Jitter for <100µA

P-P

Input Current

300nA

RMS

Input-Referred Noise at 2.1GHz

Bandwidth

25mA Supply Current at +3.3V

2.3GHz Small-Signal Bandwidth

2.0mA

P-P

AC Overload

Die Size: 24mil x 47mil

Features

MAX3275/MAX3277

Ordering Information

PART

MAX3275U/D

MAX3277U/D

TEMP RANGE

0°C to +85°C

PIN-PACKAGE

Dice*

Applications

Dual-Rate Fibre Channel Optical Receivers

Gigabit Ethernet Optical Receivers

*Dice

are guaranteed to operate from 0°C to +85°C, but are test-

ed only at T

= +25°C.

Typical Application Circuit

SMALL FORM FACTOR

OPTICAL RECEIVER

+3.3V

4.7kΩ

10kΩ

HOST SERVER

OR SWITCH

400pF

600Ω

FILTER

400pF

MAX3275

OUT+

TIA

OUT-

0.1µF

GND

660Ω

TH SQUELCH

IN-

0.1µF

IN+

100Ω

MAX3274

LOS LOS

0.1µF

OUT+

LIMITING

AMP

OUT-

0.1µF

BWSEL

RATE SELECT

DESERIALIZER

100Ω

________________________________________________________________

Maxim Integrated Products

For pricing, delivery, and ordering information, please contact Maxim/Dallas Direct! at

1-888-629-4642, or visit Maxim’s website at www.maxim-ic.com.

Low-Noise, Fibre Channel Transimpedance

Amplifiers

MAX3275/MAX3277

ABSOLUTE MAXIMUM RATINGS

Power-Supply Voltage (V

) .................................-0.5V to +4.0V

Continuous CML Output Current

(OUT+, OUT-) ...............................................-25mA to +25mA

Continuous Input Current (IN)...............................-4mA to +4mA

Continuous Input Current (FILTER).......................-8mA to +8mA

Operating Junction Temperature Range (T

) ....-55°C to +150°C

Storage Ambient Temperature Range (T

STG

) ...-55°C to +150°C

Die Attach Temperature...................................................+400°C

Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional

operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to

absolute maximum rating conditions for extended periods may affect device reliability.

ELECTRICAL CHARACTERISTICS

= +3.0V to +3.6V, T

= 0°C to +85°C. Typical values are at V

= +3.3V, source capacitance (C

) = 0.85pF, T

= +25°C,

unless otherwise noted.) (Notes 1, 2)

PARAMETER

Supply Current

Small-Signal Bandwidth

Low-Frequency Cutoff

Input Bias Voltage

Input Resistance

= 0.6pF, BW = 0.8GHz (Notes 3, 4)

= 0.6pF, BW = 1.6GHz (Notes 3, 4)

Input-Referred Noise

= 0.6pF, BW = 2.1GHz (Notes 3, 4)

= 0.85pF, BW = 0.8GHz (Notes 3, 4)

= 0.85pF, BW = 1.6GHz (Notes 3, 4)

= 0.85pF, BW = 2.1GHz (Notes 3, 4)

AC Input Overload

DC Input Overload

Filter Resistance

Output Resistance (OUT+, OUT-)

Deterministic Jitter

Transimpedance

Transimpedance Linear Range

Data Output Swing

Output Data-Transition Time

Output Return Loss

Power-Supply Rejection

PSR

(Notes 3, 5)

(Note 5)

P-P

SYMBOL

CONDITIONS

Including output termination current

-3dB, C

= 0.6pF (Note 3)

-3dB, C

= 0.85pF (Note 3)

-3dB, input current = 40µA (Note 3)

MIN

2.0

1.7

TYP

2.7

2.3

MAX

3.3

2.7

1.0

UNITS

GHz

kHz

Ω

185

245

275

193

272

300

510

42.5

600

2.8

220

300

500

140

3.3

690

57.5

3.8

250

350

380

275

400

430

RMS

P-P

Ω

P-P

kΩ

µA

P-P

Single-ended

1mA

P-P

< input < 2mA

P-P

(Notes 3, 6, 7)

100µA

P-P

< input

≤

1mA

P-P

(Notes 3, 6, 7)

10µA

P-P

< input

≤

100µA

P-P

(Notes 3, 6, 7)

Differential output

0.95 < linearity < 1.05 (Note 8)

Input > 100µA

P-P

(Note 9)

Input > 200µA

P-P

, 20% to 80% rise/fall time

(Notes 3, 10)

Freq

≤

1GHz

1GHz < freq

≤

2GHz

f < 1MHz (Note 11)

1MHz

≤

f < 10MHz (Note 11)

_______________________________________________________________________________________

Low-Noise, Fibre Channel Transimpedance

Amplifiers

ELECTRICAL CHARACTERISTICS (continued)

= +3.0V to +3.6V, T

= 0°C to +85°C. Typical values are at V

= +3.3V, source capacitance (C

) = 0.85pF, T

= +25°C,

unless otherwise noted.) (Notes 1, 2)

Note 1:

Die parameters are production tested at room temperature only, but are guaranteed by design and characterization from

0°C to +85°C.

Note 2:

Source capacitance represents the total capacitance at the IN pad during characterization of the noise and bandwidth

parameters.

Note 3:

Guaranteed by design and characterization.

Note 4:

Measured using an RF-power meter with no pattern applied at the input. The TIA output is bandwidth limited for

measurement using a 4th-order Bessel Thompson filter. The -3dB frequency of the filter matches the frequency (0.8GHz,

1.6GHz, or 2.1GHz) for the specified noise BW.

Note 5:

DC offset and deterministic jitter may exceed specification if AC or DC overload conditions are exceeded.

Note 6:

Using fibre channel K28.5± pattern. The input bandwidth is limited to 0.75

(2.125Gbps) by a 4th-order Bessel Thompson

filter. Measured differentially across an AC-coupled 100Ω external load.

Note 7:

K28.5± pattern: (00111110101100000101).

Note 8:

Gain may vary ±5% relative to reference measured with 30µA

P-P

input.

Note 9:

Production tested with 1mA

P-P

input.

Note 10:

Using a K28.7 (0011111000) pattern. Measured differentially across an AC-coupled 100Ω external load.

Note 11:

Power-supply rejection PSR = -20log(∆V

OUT

/∆V

), where

∆V

OUT

is the differential output voltage and

∆V

is the noise

on V

MAX3275/MAX3277

Typical Operating Characteristics

= +3.3V, C

= 0.85pF, T

= +25°C, unless otherwise noted.)

INPUT-REFERRED NOISE

vs. TEMPERATURE

350

340

330

320

310

300

290

280

270

260

250

240

230

220

210

200

MAX3275 toc01

INPUT-REFERRED NOISE

vs. TEMPERATURE

MAX3275 toc02

FREQUENCY RESPONSE

TRANSIMPEDANCE (dBΩ)

MAX3275 toc03

250

240

INPUT-REFERRED NOISE (nA

RMS

)

230

220

210

200

190

180

170

160

150

BW = 0.8GHz

= 0.85pF

= 0.6pF

IS SOURCE CAPACITANCE

PRESENTED TO DIE, INCLUDING

PIN DIODE, AND PARASITIC

INTERCONNECT CAPACITANCE

INPUT-REFERRED NOISE (nA

RMS

)

IS SOURCE CAPACITANCE

PRESENTED TO DIE, INCLUDING

PIN DIODE, AND PARASITIC

INTERCONNECT CAPACITANCE

= 0.85pF

= 0.6pF

BW = 1.6GHz

100

100M

FREQUENCY (Hz)

10G

AMBIENT TEMPERATURE (°C)

_______________________________________________________________________________________

Low-Noise, Fibre Channel Transimpedance

Amplifiers

MAX3275/MAX3277

Typical Operating Characteristics (continued)

(

= +3.3V, C

= 0.85pF, T

= +25°C, unless otherwise noted.)

DETERMINISTIC JITTER

vs. INPUT AMPLITUDE

MAX3275 toc04

SMALL-SIGNAL TRANSIMPEDANCE

vs. TEMPERATURE

AMBIENT TEMPERATURE (°C)

MAX3275 toc05

BANDWIDTH vs. TEMPERATURE

2.9

2.8

BANDWIDTH (GHz)

2.7

2.6

2.5

2.4

2.3

2.2

2.1

2.0

100

AMBIENT TEMPERATURE (°C)

= 0.85pF

= 0.6pF

MAX3275 toc06

DETERMINISTIC JITTER (ps

P-P

)

0.01

0.1

2.125Gbps

K28.5 INPUT

3.0

INPUT AMPLITUDE (mA

P-P

)

TRANSIMPEDANCE (dBΩ)

EYE DIAGRAM (INPUT = 10µA

P-P

)

MAX3275 toc07

EYE DIAGRAM (INPUT = 2mA

P-P

)

MAX3275 toc08

DIFFERENTIAL OUTPUT REFLECTION

COEFFICIENT

-5

-10

S22 (dB)

-15

-20

-25

-30

-35

MAX3275 toc09

5mV/div

50mV/div

INPUT: K28.5

80ps/div

INPUT: K28.5

80ps/div

-40

500M

1.5G

2.5G

FREQUENCY (Hz)

SUPPLY CURRENT vs. TEMPERATURE

SUPPLY CURRENT (mA)

100

AMBIENT TEMPERATURE (°C)

-150

-200

MAX3275 toc10

DC TRANSFER FUNCTION

(FILTER = GND)

150

OUTPUT VOLTAGE (mV)

100

-50

-100

MAX3275 toc11

200

-100

100

200

INPUT CURRENT (µA)

_______________________________________________________________________________________

Low-Noise, Fibre Channel Transimpedance

Amplifiers

Pad Description

MAX3275

BOND PAD

1, 9

2, 5

MAX3277

BOND PAD

1, 9

2, 5

NAME

GND

OUT-

OUT+

N.C.

Supply Voltage

Circuit Ground

Inverting Data Output. Current flowing into IN causes the voltage at OUT- to decrease.

Noninverting Data Output. Current flowing into IN causes the voltage at OUT+ to

increase.

No Connection. Not internally connected.

Provides bias voltage for the photodiode through a 600Ω resistor to V

. When

grounded, this pin disables the DC cancellation amplifier to allow a DC path from IN to

OUT+ and OUT- for testing.

TIA Input. Signal current from photodiode flows into this pin.

FUNCTION

MAX3275/MAX3277

FILTER

VOLTAGE

AMPLIFIER

TIA

OUTPUT

BUFFER

50Ω

OUT+

OUT-

600Ω

FILTER

DISABLE

LOWPASS

FILTER

DC CANCELLATION

GND

MAX3275

MAX3277

Figure 1. Functional Diagram

Detailed Description

The MAX3275/MAX3277 are transimpedance amplifiers

designed for up to 2.125Gbps fibre channel applica-

tions. A functional diagram of the MAX3275/MAX3277 is

shown in Figure 1. The MAX3275/MAX3277 comprises a

transimpedance amplifier stage, a voltage amplifier

stage, an output buffer, and a direct-current feedback

cancellation circuit.

Transimpedance Amplifier Stage

The signal current at the input flows into the summing

node of a high-gain amplifier. Shunt feedback through

the resistor R

converts this current to a voltage. In par-

allel with the feedback are two back-to-back Schottky

diodes that clamp the output signal for large input cur-

rents as shown in Figure 2.

Voltage Amplifier Stage

The voltage amplifier stage provides gain and converts

the single-ended input to differential outputs.

_______________________________________________________________________________________

型号	MAX3275U	MAX3275U/D	MAX3277U	MAX3277D	MAX3277U/D	MAX3275D	MAX3275
描述	Low-Noise, Fibre Channel Transimpedance Amplifiers	Low-Noise, Fibre Channel Transimpedance Amplifiers	Low-Noise, Fibre Channel Transimpedance Amplifiers	Low-Noise, Fibre Channel Transimpedance Amplifiers	Low-Noise, Fibre Channel Transimpedance Amplifiers	Low-Noise, Fibre Channel Transimpedance Amplifiers	Low-Noise, Fibre Channel Transimpedance Amplifiers

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TI推出全球首款面向运动手表的可定制开发环境

　　日前，德州仪器 (TI) 宣布推出全球首款面向运动手表的可定制开发环境 eZ430-Chronos，迎来了产品开发的新纪元。该套件将深受市场青睐的 eZ430 系列开发工具进一步推向深入，使开发人员能够便捷地充分利用 TI CC430 微处理器 (MCU) 领先的集成性、超低功耗以及无线功能。Chronos 可为客户提供所需的所有软硬件，无需编程专业技能，即可启动无线网络应用的设计。该产品不...[详细]
揭秘协议解码是示波器非常实用的功能

本文导读协议解码是示波器非常实用的功能，很多工程师因为不熟悉操作，或者参数设置不正确，最终没有得到理想的结果。本文对解码设置方面的几个细节做一个介绍，帮助您快速上手示波器的协议解码。解码解码是一种用特定的计算方法，将电脉冲信号、光信号、无线电波等转换成它所代表的信息、数据等的过程。解码是受传者将接受到的符号或代码还原为信息的过程，与编码过程相对应，不同的解码方法就是不同的协议。而...[详细]
枣庄市委书记张宏伟考察调研北京绿钒全钒液流储能电池

10月18日至19日，市委书记张宏伟赴京开展招商活动并见证智优沃鲁南超算产业基地及国联未来数字新材料项目签约。赵刚参加。在北京智优沃科技有限公司，张宏伟与企业负责人就合作建设鲁南超算产业基地进行了深入交流。她表示，枣庄作为国家千兆城市、山东省互联网一级 ... ...[详细]