SA5211D PHILIPS [NXP Semiconductors], SA5211D Datasheet - Page 15

SA5211D

Manufacturer Part Number

SA5211D

Description

Transimpedance amplifier 180MHz

Manufacturer

PHILIPS [NXP Semiconductors]

Datasheet

1.SA5211D.pdf (20 pages)

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Philips Semiconductors

APPLICATION INFORMATION

Package parasitics, particularly ground lead inductances and

parasitic capacitances, can significantly degrade the frequency

response. Since the SA5211 has differential outputs which can feed

back signals to the input by parasitic package or board layout

capacitances, both peaking and attenuating type frequency

response shaping is possible. Constructing the board layout so that

Ground 1 and Ground 2 have very low impedance paths has

produced the best results. This was accomplished by adding a

ground-plane stripe underneath the device connecting Ground 1,

1998 Oct 07

Transimpedance amplifier (180MHz)

Figure 13. Shunt-Series Input Stage

INPUT

PHOTODIODE

INPUT

GND

Figure 12. Transimpedance Amplifier

SD00329

EQ3

CC1

Pins 8–11, and Ground 2, Pins 1 and 2 on opposite ends of the

SO14 package. This ground-plane stripe also provides isolation

between the output return currents flowing to either V

2 and the input photodiode currents to flowing to Ground 1. Without

this ground-plane stripe and with large lead inductances on the

board, the part may be unstable and oscillate near 800MHz. The

easiest way to realize that the part is not functioning normally is to

measure the DC voltages at the outputs. If they are not close to their

quiescent values of 3.3V (for a 5V supply), then the circuit may be

oscillating. Input pin layout necessitates that the photodiode be

physically very close to the input and Ground 1. Connecting Pins 3

and 5 to Ground 1 will tend to shield the input but it will also tend to

increase the capacitance on the input and slightly reduce the

bandwidth.

As with any high-frequency device, some precautions must be

observed in order to enjoy reliable performance. The first of these is

the use of a well-regulated power supply. The supply must be

capable of providing varying amounts of current without significantly

changing the voltage level. Proper supply bypassing requires that a

good quality 0.1 F high-frequency capacitor be inserted between

pins as possible. Also, the parallel combination of 0.1 F capacitors

with 10 F tantalum capacitors from each supply, V

the ground plane should provide adequate decoupling. Some

applications may require an RF choke in series with the power

supply line. Separate analog and digital ground leads must be

maintained and printed circuit board ground plane should be

employed whenever possible.

Figure 14 depicts a 50Mb/s TTL fiber-optic receiver using the

BPF31, 850nm LED, the SA5211 and the SA5214 post amplifier.

CC1

and V

GND

CC2

VB2

, preferably a chip capacitor, as close to the package

SD00328

OUT–

OUT+

CC2

Product specification

CC1

SA5211

CC2

and V

or Ground

CC2

, to

SA5211D PHILIPS [NXP Semiconductors], SA5211D Datasheet - Page 15

SA5211D

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