OPA2300 Datasheet, PDF(11/19 Page) Texas Instruments – Low-Noise, High-Speed, 16-Bit Accurate, CMOS OPERATIONAL AMPLIFIER

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OPA2300 Datasheet, PDF (11/19 Pages) Texas Instruments – Low-Noise, High-Speed, 16-Bit Accurate, CMOS OPERATIONAL AMPLIFIER

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DRIVING CAPACITIVE LOADS

When using high-speed operational amplifiers, it is

extremely important to consider the effects of

capacitive loading on amplifier stability. Capacitive

loading will interact with the output impedance of the

operational amplifier, and depending on the capacitor

value, may significantly decrease the gain bandwidth,

as well as introduce peaking. To reduce the effects of

capacitive loading and allow for additional capacitive

load drive, place a series resistor between the output

and the load. This will reduce available bandwidth, but

permit stable operation with capacitive loading.

Figure 3 illustrates the recommended relationship

between the resistor and capacitor values.

100

OPA300, OPA2300

OPA301, OPA2301

SBOS271B â MAY 2003 â REVISED JUNE 2005

DRIVING A 16-BIT ADC

The OPA300/OPA301 series feature excellent

THD+noise, even at frequencies greater than 1MHz,

with a 16-bit settling time of 150ns. Figure 4 shows a

total single supply solution for high-speed data

acquisition. The OPA300/OPA301 directly drives the

ADS8401, a 1.25 mega sample per second (MSPS)

16-bit data converter. The OPA300/OPA301 is

configured in an inverting gain of 1, with a 5V single

supply. Results of the OPA300/OPA301 performance

are summarized in Table 1.

130pF

(mica)

1820â¦

VIN

130pF

OPA30x

(mica)

fS = 1.25MSPS

f = 10kHz

10â¦

ADS8401

1.5nF

100

Capacitive Load (pF)

Figure 3. Recommended RS and CL Combinations

Amplifiers configured in unity gain are most susceptible

to stability issues. The typical characteristic, Frequency

Response vs Capacitive Load, describes the relation-

ship between capacitive load and stability for the

OPA300/OPA301 series. In unity gain, the

OPA300/OPA301 series is capable of driving a few

picofarads of capacitive load without compromising

stability. Board level parasitic capacitance can often fall

into the range of a picofarad or more, and should be

minimized through good circuit-board layout practices

to avoid compromising the stability of the

OPA300/OPA301. For more information on detecting

parasitics during testing, see the Application Note

Measuring Board Parasitics in High-Speed Analog

Design (SBOA094), available at the TI web site

www.ti.com.

Figure 4. The OPA30x Drives the 16-Bit ADS8401

PARAMETER

RESULTS (f = 10kHz)

THD

â99.3dB

SFDR

101.2dB

THD+N

84.2dB

SNR

84.3dB

Table 1. OPA30x Performance Results Driving a

1.25MSPS ADS8401

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