CA3130M Intersil, CA3130M Datasheet - Page 5

CA3130M

Manufacturer Part Number

CA3130M

Description

IC OP AMP 15MHZ BIMOS 8-SOIC

Manufacturer

Intersil

Datasheet

1.CA3130E.pdf (17 pages)

Specifications of CA3130M

Amplifier Type

General Purpose

Number Of Circuits

Slew Rate

30 V/µs

Gain Bandwidth Product

15MHz

Current - Input Bias

5pA

Voltage - Input Offset

8000µV

Current - Supply

10mA

Current - Output / Channel

45mA

Voltage - Supply, Single/dual (±)

5 V ~ 16 V, ±2.5 V ~ 8 V

Operating Temperature

-55°C ~ 125°C

Mounting Type

Surface Mount

Package / Case

8-SOIC (3.9mm Width)

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Output Type

-3db Bandwidth

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Meier Automation Equipment Co., Limited

Part Number:

CA3130M

Manufacturer:

HARRIS

Quantity:

20 000

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

CA3130MZ

Manufacturer:

INTERSIL

Quantity:

Company:

Meier Automation Equipment Co., Limited

Part Number:

CA3130MZ

Manufacturer:

INT

Quantity:

20 000

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

CA3130MZ96

Manufacturer:

Intersil

Quantity:

5 000

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

CA3130MZ96

Manufacturer:

Intersil

Quantity:

6 000

Company:

Meier Automation Equipment Co., Limited

Part Number:

CA3130MZ96

Manufacturer:

INTERSIL

Quantity:

20 000

Company:

Amily Shenzhen XNWY Technology Co., Ltd

Part Number:

CA3130MZ96

Current page: 5 of 17
Download datasheet (938Kb)

NOTES:

Cascade-connected PMOS transistors Q2, Q4 are the

constant-current source for the input stage. The biasing circuit

for the constant-current source is subsequently described.

The small diodes D

against high-voltage transients, including static electricity

during handling for Q

Second-Stage

Most of the voltage gain in the CA3130 is provided by the

second amplifier stage, consisting of bipolar transistor Q

and its cascade-connected load resistance provided by

PMOS transistors Q

for these PMOS transistors is subsequently described. Miller

Effect compensation (roll-off) is accomplished by simply

connecting a small capacitor between Terminals 1 and 8. A

47pF capacitor provides sufficient compensation for stable

unity-gain operation in most applications.

Bias-Source Circuit

At total supply voltages, somewhat above 8.3V, resistor R

and zener diode Z

the series-connected circuit, consisting of resistor R

of resistor R

about 4.5V for PMOS transistors Q

Terminal 7. A potential of about 2.2V is developed across

diode-connected PMOS transistor Q

7 to provide gate bias for PMOS transistors Q

should be noted that Q

both Q

be identical, the approximately 200µA current in Q

establishes a similar current in Q

INPUT

6. Total supply voltage (for indicated voltage gains) = 15V with input

7. Total supply voltage (for indicated voltage gains) = 15V with

through D

terminals biased so that Terminal 6 potential is +7.5V above

Terminal 4.

output terminal driven to either supply rail.

FIGURE 1. BLOCK DIAGRAM OF THE CA3130 SERIES

CA3130

OFFSET

and Q

NULL

≈ 5X

and diode D

, and PMOS transistor Q

. Since transistors Q

200µA

(WHEN REQUIRED)

BIAS CKT.

COMPENSATION

serve to establish a voltage of 8.3V across

through D

and Q

1.35mA

is “mirror-connected (see Note 8)” to

6000X

provides a gate-bias potential of

. The source of bias potentials

≈

provide gate-oxide protection

200µA

and Q

, Q

with respect to Terminal

. A tap at the junction

, Q

30X

as constant current

STROBE

8mA

(NOTE 5)

0mA

(NOTE 7)

≈

with respect to

are designed to

and Q

, diodes

CA3130, CA3130A

OUTPUT

. It

V+

V-

sources for both the first and second amplifier stages,

respectively.

At total supply voltages somewhat less than 8.3V, zener

diode Z

developed across series-connected R

varies directly with variations in supply voltage.

Consequently, the gate bias for Q

accordance with supply-voltage variations. This variation

results in deterioration of the power-supply-rejection ratio

(PSRR) at total supply voltages below 8.3V. Operation at

total supply voltages below about 4.5V results in seriously

degraded performance.

Output Stage

The output stage consists of a drain-loaded inverting

amplifier using CMOS transistors operating in the Class A

mode. When operating into very high resistance loads, the

output can be swung within millivolts of either supply rail.

Because the output stage is a drain-loaded amplifier, its gain

is dependent upon the load impedance. The transfer

characteristics of the output stage for a load returned to the

negative supply rail are shown in Figure 2. Typical op amp

loads are readily driven by the output stage. Because large-

signal excursions are non-linear, requiring feedback for good

waveform reproduction, transient delays may be

encountered. As a voltage follower, the amplifier can achieve

0.01% accuracy levels, including the negative supply rail.

NOTE:

8. For general information on the characteristics of CMOS

FIGURE 2. VOLTAGE TRANSFER CHARACTERISTICS OF

transistor-pairs in linear-circuit applications, see File Number

619, data sheet on CA3600E “CMOS Transistor Array”.

17.5

12.5

7.5

2.5

becomes nonconductive and the potential,

SUPPLY VOLTAGE: V+ = 15, V- = 0V

500Ω

= 25

1kΩ

CMOS OUTPUT STAGE

2.5

GATE VOLTAGE (TERMINALS 4 AND 8) (V)

2kΩ

LOAD RESISTANCE = 5kΩ

7.5

, Q

12.5

, D

and Q

-D

17.5

, and Q

, Q

varies in

22.5

CA3130M Intersil, CA3130M Datasheet - Page 5

CA3130M

Specifications of CA3130M

Available stocks

Related parts for CA3130M