935202090026 [NXP]

IC SPECIALTY TELECOM CIRCUIT, UUC, DIE, Telecom IC:Other;


型号：	935202090026
厂家：	NXP
描述：	IC SPECIALTY TELECOM CIRCUIT, UUC, DIE, Telecom IC:Other 电信电信集成电路
文件：	总15页 (文件大小：208K)
中文：	中文翻译
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INTEGRATED CIRCUITS

SA5223

Wide dynamic range AGC

transimpedance amplifier (150MHz)

Product specification

IC19 Data Handbook

1995 Oct 24

Philips

Semiconductors

Philips Semiconductors

Product specification

Wide dynamic range AGC transimpedance amplifier(150MHz)

SA5223

DESCRIPTION

PIN DESCRIPTION

The SA5223 is a wide-band, low-noise transimpedance amplifier

with differential outputs, incorporating AGC and optimized for signal

recovery in wide-dynamic-range fiber optic receivers, such as

SONET. The part is also suited for many other RF and fiber optic

applications as a general purpose gain block.

D Package

GND

OUT

GND

The SA5223 is the first AGC amplifier to incorporate internal AGC

loop hold capacitor, therefore, no external components are required.

The internal AGC loop enables the SA5223 to effortlessly handle

bursty data over a range of nA to mA of signal current, positive

direction (sinking) only.

GND

SD00369

FEATURES

1.17pA

• Extremely low noise:

APPLICATIONS

• OC3 SONET preamp (see AN1431 for detailed analysis

• Current-to-voltage converters

• Wide-band gain block

• Single 5V supply

• Low supply current: 22mA

• Large bandwidth: 150MHz

• Differential outputs

• Medical and scientific instrumentation

• Sensor preamplifiers

• Internal hold capacitor

• Single-ended to differential conversion

• Low noise RF amplifiers

• Low input/output impedances

• High power-supply-rejection ratio: 55dB

• Tight transresistance control

• High input overload: 4mA

• 2000V HBM ESD protection

• RF signal processing

ORDERING INFORMATION

DESCRIPTION

TEMPERATURE RANGE

ORDER CODE

DWG #

-40 to +85°C

8-Pin Plastic Small Outline

SA5223D

SOT96-1

For unpackaged die please contact factory.

ABSOLUTE MAXIMUM RATINGS

SYMBOL

PARAMETER

RATING

UNITS

Power supply voltage

Ambient temperature range

Junction temperature range

-40 to +85

°C

-55 to +150

°C

Storage temperature range

-65 to +150

STG

Power dissipation T = 25 C (still air)

0.78

Maximum input current

INMAX

NOTE:

1. Maximum power dissipation is determined by the operating ambient temperature and the thermal resistance θ = 158 C/W. Derate

6.2mW/°C above 25°C.

RECOMMENDED OPERATING CONDITIONS

SYMBOL

PARAMETER

RATING

UNITS

Power supply voltage

4.5 to 5.5

°C

Ambient temperature range: SA grade

Junction temperature range: SA grade

-40 to +85

-40 to +105

1995 Oct 24

853-1816 15939

Philips Semiconductors

Product specification

Wide dynamic range AGC transimpedance amplifier(150MHz)

SA5223

DC ELECTRICAL CHARACTERISTICS

Typical data and Min and Max limits apply at T = 25°C, and V = +5V, unless otherwise specified.

SA5223

SYMBOL

PARAMETER

Input bias voltage

TEST CONDITIONS

UNIT

Max

Min

1.3

2.9

-200

Typ

1.55

3.2

1.8

3.5

Output bias voltage

Output offset voltage (V

Supply current

- V

)

+200

PIN6

PIN7

Output sink/source current

1.5

OMAX

NOTE: Standard deviations are estimated from design simulations to represent manufacturing variations over the life of the product.

AC ELECTRICAL CHARACTERISTICS

Typical data and Min and Max limits apply at T = 25°C and V = +5V, unless otherwise specified.

SA5223

Typ

SYMBOL

PARAMETER

TEST CONDITIONS

UNIT

Min

Max

Transresistance (differential output)

125

160

kΩ

DC tested, R = ∞, I = 0-1µA

Transresistance

(single-ended output)

62.5

140

DC tested, R = ∞, I = 0-1µA

Output resistance

(differential output)

DC tested

Ω

Output resistance

(single-ended output)

DC tested

Bandwidth (-3dB)

Input resistance

Test Circuit 1

DC tested

110

150

250

0.7

MHz

Ω

3dB

Input capacitance

Input capacitance including Miller multiplied

capacitance

4.0

INT

∆R/∆V

Transresistance power supply sensitivity

CC1

= V

= 5 ±0.5V

CC2

%/V

Transresistance ambient temperature sensi-

tivity

∆R/∆T

∆T = T

- T

A MIN

0.09

%/ C

A MAX

RMS noise current spectral density (referred

to input)

Test Circuit 2, f = 10MHz

1.17

pAń Hz

Test circuit 2,

∆f = 50MHz

Integrated RMS noise current over the band-

width (referred to input)

∆f = 100MHz

∆f = 150MHz

∆f = 50MHz

∆f = 100MHz

∆f = 150MHz

= 0.1pF

= 0.4pF

PSRR

Power supply rejection ratio (change in V

)

DC Tested, ∆V = ±0.5V

–55

–20

800

Power supply rejection ratio

f = 1.0MHz, Test Circuit 3

Maximum differential output AC voltage

I = 0–2mA peak AC

OLMAX

dR_T

AGC loop time constant parameter

10µA to 20µA steps

dB/ms

Maximum input amplitude for output duty

cycle of 50 ±5%

Test circuit 4

INMAX

t , t

Output rise and fall times

Group delay

10 – 90%

f = 10MHz

2.2

NOTES:

1. Does not include Miller-multiplied capacitance of input device.

2. Noise performance measured differential. Single-ended output noise is higher due to CM noise.

3. PSRR is output referenced and is circuit board layout dependent at higher frequencies. For best performance use a RF filter in V line.

4. This implies that the SA5223 gain will change 1dB (10%) in the absence of data for 1ms (i.e., can handle bursty data without degrading Bit

Error Rate (BER) for 100,000 cycles at 100MHz).

1995 Oct 24

Philips Semiconductors

Product specification

Wide dynamic range AGC transimpedance amplifier(150MHz)

SA5223

TEST CIRCUITS

SINGLE-ENDED

+ 12.4 @ S

@ R

R + 1k ) R

[ 1250W

INSS

TSE

SPECTRUM ANALYZER

50Ω

NETWORK ANALYZER

S-PARAMETER TEST SET

PORT2

.1µF

1.0µF

PORT1

OUT

= 50Ω

NE5209

IN DUT

OUT

.1µF

.1uF

500

0.1uF

R=1k

GND

1.0µF

50Ω

OUT

GND

IN DUT

OUT

.1uF

GND

Test Circuit 2: Noise

SD00370

Test Circuit 1: Bandwidth

SD00371

BIAS TEE

NETWORK ANALYZER

S-PARAMETER TEST SET

PORT2

PORT1

50Ω

TRANSFORMER

CONVERSION

LOSS = 9dB

CAL

0.1uF

OUT

.1uF

NHO300HB

IN DUT

OUT

.1uF

GND

50Ω

UNBAL.

100Ω

BAL.

GND

SD00372

Test Circuit 3: PSRR

50% DUTY CYCLE

PULSE GEN

.1µF

500Ω

OFFSET

0.1uF

OUT

DUT

= 50Ω

OSCILLOSCOPE

1kΩ

.1µF

500Ω

OUT

= 50Ω

50Ω

GND

Meaurement done using

differential wave forms

Test Circuit 4: Duty Cycle Distortion

SD00373

1995 Oct 24

Philips Semiconductors

Product specification

Wide dynamic range AGC transimpedance amplifier(150MHz)

SA5223

GND

PAD CENTER LOCATIONS

X(mm)

Y(mm)

NC NC

OUT

OUTB

GND1

GND2

OUT

OUTB

-0.400

+0.400

-0.053

-0.223

-0.342

-0.046

+0.154

+0.380

DIE SIZE

X(mm)

Y(mm)

1.32

1.08

GND

SD00507

Figure 1. SA5223 Bonding Diagram

carriers, it is impossible to guarantee 100% functionality through this

process. There is no post waffle pack testing performed on

individual die.

Die Sales Disclaimer

Due to the limitations in testing high frequency and other parameters

at the die level, and the fact that die electrical characteristics may

shift after packaging, die electrical parameters are not specified and

die are not guaranteed to meet electrical characteristics (including

temperature range) as noted in this data sheet which is intended

only to specify electrical characteristics for a packaged device.

Since Philips Semiconductors has no control of third party

procedures in the handling or packaging of die, Philips

Semiconductors assumes no liability for device functionality or

performance of the die or systems on any die sales.

All die are 100% functional with various parametrics tested at the

wafer level, at room temperature only (25°C), and are guaranteed to

be 100% functional as a result of electrical testing to the point of

wafer sawing only. Although the most modern processes are

utilized for wafer sawing and die pick and place into waffle pack

Although Philips Semiconductors typically realizes a yield of 85%

after assembling die into their respective packages, with care

customers should achieve a similar yield. However, for the reasons

stated above, Philips Semiconductors cannot guarantee this or any

other yield on any die sales.

1995 Oct 24

Philips Semiconductors

Product specification

Wide dynamic range AGC transimpedance amplifier(150MHz)

SA5223

SD00521

Figure 2. SONET Test Board — 155Mb/s (1300nm)

1995 Oct 24

Philips Semiconductors

Product specification

Wide dynamic range AGC transimpedance amplifier(150MHz)

SA5223

L 2

C 4

C 9

C 8

C 3

R 2

C 1

R 1

C 2

R 1 2

D o u t

R 5

R 8

R 7

R 6

C 1 2

C 1

R 9

D 1

R 1 0

TOP VIEW

BOTTOM VIEW

SD00522

Figure 3. SA5223 Board Layout (NOT ACTUAL SIZE)

1995 Oct 24

Philips Semiconductors

Product specification

Wide dynamic range AGC transimpedance amplifier(150MHz)

SA5223

28.00

26.00

24.00

22.00

20.00

18.00

16.00

100

= (I = 0) = V

= INFINITY

– V

OUT OUT

= 5.5V

= 5.0V

= 5.5V

= 5.0V

= 4.5V

-50

-25

100

SD00530

-50

-25

100

SD00527

TEMPERATURE (°C)

Figure 4. SA5223 I vs Temperature

Figure 7. SA5223 Output V vs Temperature

3.500

3.400

3.300

3.200

3.100

3.000

2.900

1.900

1.800

1.700

1.600

1.500

1.400

1.300

1.200

OUT

= 5.5V

= 5.0V

= 4.5V

= INFINITY

= 5.0V, Temperature = 25°C

OUT

DC INPUT CURRENT (µA)

-50

-25

100

SD00528

SD00531

TEMPERATURE (°C)

Figure 8. SA5223 Output Voltage vs DC Input Current

(for small input current)

Figure 5. SA5223 Input V

vs Temperature

BIAS

4.200

4.000

3.800

= INFINITY

= 5.0V, Temperature = 25°C

3.600

3.400

3.200

3.000

2.800

2.600

= 5.5V

3.800

3.600

3.400

3.200

3.000

2.800

2.600

2.400

2.200

2.000

OUT

= 5.0V

= 4.5V

OUT

-50

-25

100

SD00529

100

1000

10000

SD00532

TEMPERATURE (°C)

DC INPUT CURRENT (µA LOG)

Figure 6. SA5223 Output V

vs Temperature

Figure 9. SA5223 Output Voltage vs DC Input Current

(for large input current)

BIAS

1995 Oct 24

Philips Semiconductors

Product specification

Wide dynamic range AGC transimpedance amplifier(150MHz)

SA5223

0.350

1000

85°C

= INFINITY

0.300

= 5.0V

25°C

Temperature = -40, 25, 85°C

100

0.250

RT = V

/ I

OD IN

= INFINITY

= 5.0V, Temperature = 25°C

-40°C

0.200

0.150

0.100

0.050

0.000

= V

– V

OUT

100

DC INPUT CURRENT (µA LOG)

1000

10000

DC INPUT CURRENT (µA)

SD00533

SD00536

Figure 10. SA5223 Differential Output vs DC I

(for small input current)

Figure 13. SA5223 Differential RT vs DC I

(for large input current)

160

140

120

= INFINITY

= 5.0V

1.800

1.600

1.400

1.200

1.000

0.800

0.600

0.400

0.200

0.000

Temperature = 25°C

RT = V

/ I

OD IN

= INFINITY

= 5.5V

= 5.0V, Temperature = 25°C

100

= V

– V

OUT OS

= 5.0V

OUT

= 4.5V

DC INPUT CURRENT (µA)

100

1000

10000

SD00534

SD00537

DC INPUT CURRENT (µA, LOG)

Figure 14. SA5223 Differential RT vs DC I

(for small input current)

Figure 11. SA5223 Differential Output vs DC I

1000

100

160

140

120

85°C

= INFINITY

= 5.0V

= INFINITY

Temperature = -40, 25, 85°C

= 4.5, 5.0, 5.0V

RT = V

/ I

OD IN

Temperature = 25°C

RT = V

25°C

/ I

OD IN

-40°C

100

25°C

85°C

-40°C

100

DC INPUT CURRENT (µA LOG)

1000

10000

SD00538

DC INPUT CURRENT (µA)

SD00535

Figure 15. SA5223 Differential RT vs DC I

(for large input current)

Figure 12. SA5223 Differential RT vs DC I

(for small input current)

1995 Oct 24

Philips Semiconductors

Product specification

Wide dynamic range AGC transimpedance amplifier(150MHz)

SA5223

= 5.0V

SINGLE-ENDED OUTPUT

TEMPERATURE = 25°C

VCC = 5.0V

-40°C

0°C

25°C

70°C

85°C

-2

-4

-1

100

300

SD00539

START = 1MHz

STOP = 200MHz

FREQUENCY (MHz)

FREQUENCY (MHz, LINEAR)

SD00541

Figure 16. Insertion Gain vs Frequency

Figure 18. Group Delay vs Frequency

10.0

9.0

8.0

7.0

6.0

5.0

4.0

3.0

2.0

1.0

0.0

TEMPERATURE = 25°C

SINGLE-ENDED OUTPUT

= 5.0V

Temperature = 25°C

= 0pF

= 5.5V

= 5.0V

= 4.5V

-2

-4

100

300

100

300

SD00540

FREQUENCY (MHz)

SD00542

FREQUENCY (MHz)

Figure 19. SA5223 Input Current RMS Noise Spectral Density

Figure 17. Insertion Gain vs Frequency

1995 Oct 24

Philips Semiconductors

Product specification

Wide dynamic range AGC transimpedance amplifier (150MHz)

SA5223

SO8: plastic small outline package; 8 leads; body width 3.9mm

SOT96-1

1995 Oct 24

Philips Semiconductors

Product specification

Wide dynamic range AGC transimpedance amplifier (150MHz)

SA5223

Data sheet status

[1]

Data sheet

status

Product

status

Definition

Objective

specification

Development

This data sheet contains the design target or goal specifications for product development.

Specification may change in any manner without notice.

Preliminary

specification

Qualification

This data sheet contains preliminary data, and supplementary data will be published at a later date.

Philips Semiconductors reserves the right to make chages at any time without notice in order to

improve design and supply the best possible product.

Product

specification

Production

This data sheet contains final specifications. Philips Semiconductors reserves the right to make

changes at any time without notice in order to improve design and supply the best possible product.

[1] Please consult the most recently issued datasheet before initiating or completing a design.

Definitions

Short-form specification — The data in a short-form specification is extracted from a full data sheet with the same type number and title. For

detailed information see the relevant data sheet or data handbook.

Limiting values definition — Limiting values given are in accordance with the Absolute Maximum Rating System (IEC 134). Stress above one

or more of the limiting values may cause permanent damage to the device. These are stress ratings only and operation of the device at these or

at any other conditions above those given in the Characteristics sections of the specification is not implied. Exposure to limiting values for extended

periods may affect device reliability.

Application information — Applications that are described herein for any of these products are for illustrative purposes only. Philips

Semiconductors make no representation or warranty that such applications will be suitable for the specified use without further testing or

modification.

Disclaimers

Life support — These products are not designed for use in life support appliances, devices or systems where malfunction of these products can

reasonably be expected to result in personal injury. Philips Semiconductors customers using or selling these products for use in such applications

do so at their own risk and agree to fully indemnify Philips Semiconductors for any damages resulting from such application.

Righttomakechanges—PhilipsSemiconductorsreservestherighttomakechanges, withoutnotice, intheproducts, includingcircuits,standard

cells, and/or software, described or contained herein in order to improve design and/or performance. Philips Semiconductors assumes no

responsibility or liability for the use of any of these products, conveys no license or title under any patent, copyright, or mask work right to these

products, and makes no representations or warranties that these products are free from patent, copyright, or mask work right infringement, unless

otherwise specified.

Philips Semiconductors

811 East Arques Avenue

P.O. Box 3409

Sunnyvale, California 94088–3409

Telephone 800-234-7381

Date of release: 08-98

Document order number:

9397 750 06831

Philips

Semiconductors

1995 Oct 24

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