Summary

KZOA0351IP
community
Khaled Hussein
Hard IP
350nm
community
X-FAB
EFXH035A
OpAmp

Licensing

$7000
N/A

Maturity

layout
0

Library Package

1.0
May 10, 2018

Certifications

icon Community Certified

Description

The KZOA0351IP is high precision, high performance, high bandwidth operational amplifier chip. It is ahead of its competitors in all respects comparing it between to the worlds top high precision operational amplifier makers.

Additionally, the chip can be produced cheaply unlike similar category operational amplifiers.

This chip is ready for production by manufacturers. There is a special offer for manufacturers who want to produce this chip (please click 'Send Inquiry' below to request the details).

Features

  • Required Modules MOS
  • Very high bandwidth
  • Very low offset
  • Very high CMRR
  • Low power consumption

Figure(s)


Pins

NAME DESCRIPTION TYPE DIRECTION VMIN VMAX
pve differential input voltage high signal input -0.3 3.6
nve differential input voltage low signal input -0.3 3.6
output bandgap reference voltage output signal output -0.3 3.6
POWER positive power supply power inout -0.3 3.6
VSSA ground ground inout -0.3 POWER + 0.3

Parameters

Global Conditions

NAME MINIMUM TYPICAL MAXIMUM UNITS
VDD 2.5 V
Ground 0 V
RLoad 100
CLoad 5 pF
Temp -40 27 130 °C
Vcm 0.8 1.5 V
Trise 50 ms
Sigma 3
Corner ws tm wp

Electrical Parameters

PARAMETER PIN MINIMUM TYPICAL MAXIMUM UNITS
Input Offset Voltage -82.41 -33.66 0.404 mV Conditions
VOLTAGE:VSSA 0 V
VOLTAGE:VCM 0.8 1.5 V
VOLTAGE:VDDA 2.5 V
RISETIME:VDIFF 50 ms
RESISTANCE:OUTPUT 100
CAPACITANCE:OUTPUT 5 pF
TEMPERATURE 27 °C
CORNER ws tm wp
SIGMA 3
VOL 9.088e-09 1.045e-08 1.187e-08 V Conditions
VOLTAGE:VSSA 0 V
VOLTAGE:VCM 0.8 1.5 V
VOLTAGE:VDDA 2.5 V
VOLTAGE:VDIFF -1 V
RISETIME:VDIFF 50 ms
RESISTANCE:OUTPUT 100
CAPACITANCE:OUTPUT 5 pF
TEMPERATURE 27 °C
CORNER ws tm wp
SIGMA 3
VOH 2.464 2.488 2.5 V Conditions
VOLTAGE:VSSA 0 V
VOLTAGE:VCM 0.8 1.5 V
VOLTAGE:VDDA 2.5 V
VOLTAGE:VDIFF 1 V
RISETIME:VDIFF 50 ms
RESISTANCE:OUTPUT 100
CAPACITANCE:OUTPUT 5 pF
TEMPERATURE 27 °C
CORNER ws tm wp
SIGMA 3
Open-loop Voltage Gain 249.9 253.1 256.1 dB Conditions
VOLTAGE:VSSA 0 V
VOLTAGE:VDDA 2.5 V
VOLTAGE:VCM 1.0 V
RISETIME:VDIFF 50 ms
RESISTANCE:OUTPUT 100
CAPACITANCE:OUTPUT 5 pF
TEMPERATURE 27 °C
CORNER ws tm wp
SIGMA 3
Gain-Bandwidth @ 3σ 185.7 251.5 321.9 MHz Conditions
VOLTAGE:VSSA 0 V
VOLTAGE:VDDA 2.5 V
VOLTAGE:VCM 1.0 V
VOLTAGE:VDIFF 0.1 V
RISETIME:VDIFF 50 ms
RESISTANCE:OUTPUT 100
CAPACITANCE:OUTPUT 5 pF
TEMPERATURE 27 °C
CORNER ws tm wp
SIGMA 3
Gain-Bandwidth @ 6σ 136.4 264.5 410.4 MHz Conditions
VOLTAGE:VSSA 0 V
VOLTAGE:VDDA 2.5 V
VOLTAGE:VCM 1.0 V
VOLTAGE:VDIFF 0.1 V
RISETIME:VDIFF 50 ms
RESISTANCE:OUTPUT 100
CAPACITANCE:OUTPUT 5 pF
TEMPERATURE 27 °C
CORNER ws tm wp
SIGMA 6
Slew Rate Rise @ 3σ 1107 1136 1166 V/µs Conditions
VOLTAGE:VSSA 0 V
VOLTAGE:VCM 0.8 1.5 V
VOLTAGE:VDDA 2.5 V
RISETIME:VDIFF 50 ms
RESISTANCE:OUTPUT 100
CAPACITANCE:OUTPUT 5 pF
TEMPERATURE 27 °C
CORNER ws tm wp
SIGMA 3
Slew Rate Rise @ 6σ 933.3 1098 1262 V/µs Conditions
VOLTAGE:VSSA 0 V
VOLTAGE:VCM 0.8 1.5 V
VOLTAGE:VDDA 2.5 V
RISETIME:VDIFF 50 ms
RESISTANCE:OUTPUT 100
CAPACITANCE:OUTPUT 5 pF
TEMPERATURE 27 °C
CORNER ws tm wp
SIGMA 6
Slew Rate Fall @ 3σ 341.1 455.9 570.6 V/µs Conditions
VOLTAGE:VSSA 0 V
VOLTAGE:VCM 0.8 1.5 V
VOLTAGE:VDDA 2.5 V
RISETIME:VDIFF 50 ms
RESISTANCE:OUTPUT 100
CAPACITANCE:OUTPUT 5 pF
TEMPERATURE 27 °C
CORNER ws tm wp
SIGMA 3
Slew Rate Fall @ 6σ 271.9 386.5 501.1 V/µs Conditions
VOLTAGE:VSSA 0 V
VOLTAGE:VCM 0.8 1.5 V
VOLTAGE:VDDA 2.5 V
RISETIME:VDIFF 50 ms
RESISTANCE:OUTPUT 100
CAPACITANCE:OUTPUT 5 pF
TEMPERATURE 27 °C
CORNER ws tm wp
SIGMA 6
Full Power Bandwidth 43.43 58.04 72.65 MHz Conditions
VOLTAGE:VSSA 0 V
VOLTAGE:VCM 0.8 1.5 V
VOLTAGE:VDDA 2.5 V
RISETIME:VDIFF 50 ms
RESISTANCE:OUTPUT 100
CAPACITANCE:OUTPUT 5 pF
TEMPERATURE 27 °C
CORNER ws tm wp
SIGMA 3
Phase Margin 264.8 265.6 266.8 ° Conditions
VOLTAGE:VSSA 0 V
VOLTAGE:VDDA 2.5 V
VOLTAGE:VCM 1.0 V
VOLTAGE:VDIFF 0.1 V
RISETIME:VDIFF 50 ms
RESISTANCE:OUTPUT 100
CAPACITANCE:OUTPUT 5 pF
TEMPERATURE 27 °C
CORNER ws tm wp
SIGMA 3
Gain Margin -71.58 -70.87 -70.17 dB Conditions
VOLTAGE:VSSA 0 V
VOLTAGE:VDDA 2.5 V
VOLTAGE:VCM 1.0 V
VOLTAGE:VDIFF 0.1 V
RISETIME:VDIFF 50 ms
RESISTANCE:OUTPUT 100
CAPACITANCE:OUTPUT 5 pF
TEMPERATURE 27 °C
CORNER ws tm wp
SIGMA 3
Equivalent Input Noise Voltage @ 1kHz 68.14 251 1042 nV/√Hz Conditions
VOLTAGE:VDDA 2.5 V
VOLTAGE:VSSA 0 V
VOLTAGE:VCM 0.8 1.5 V
RISETIME:VDIFF 50 ms
RESISTANCE:OUTPUT 100
CAPACITANCE:OUTPUT 5 pF
TEMPERATURE -40 27 130 °C
FREQUENCY 1 kHz
CORNER ws tm wp
SIGMA 3
Equivalent Input Noise Voltage @ 10kHz 27.03 96.98 422.1 nV/√Hz Conditions
VOLTAGE:VDDA 2.5 V
VOLTAGE:VSSA 0 V
VOLTAGE:VCM 0.8 1.5 V
RISETIME:VDIFF 50 ms
RESISTANCE:OUTPUT 100
CAPACITANCE:OUTPUT 5 pF
TEMPERATURE -40 27 130 °C
FREQUENCY 10 kHz
CORNER ws tm wp
SIGMA 3
CMRR @ 100kHz -52.68 -47.62 -42.19 dB Conditions
VOLTAGE:VSSA 0 V
VOLTAGE:VDDA 2.5 V
VOLTAGE:VCM 0.8 1.5 V
RISETIME:VDIFF 50 ms
RESISTANCE:OUTPUT 100
CAPACITANCE:OUTPUT 5 pF
TEMPERATURE 27 °C
FREQUENCY:VCM 100 kHz
CORNER ws tm wp
SIGMA 3
PSRR @ 100kHz -183.8 -96.1 -38.29 dB Conditions
VOLTAGE:VSSA 0 V
VOLTAGE:VDDA 2.3 3.3 V
VOLTAGE:VCM 0.8 1.5 V
RISETIME:VDIFF 50 ms
RESISTANCE:OUTPUT 100
CAPACITANCE:OUTPUT 5 pF
TEMPERATURE 27 °C
FREQUENCY:POWER 100 kHz
CORNER ws tm wp
SIGMA 3
IDD @ 3σ 128.5 165.8 207.7 µA Conditions
VOLTAGE:VSSA 0 V
VOLTAGE:VCM 0.8 1.5 V
VOLTAGE:VDDA 2.5 V
RISETIME:VDIFF 50 ms
RESISTANCE:OUTPUT 100
CAPACITANCE:OUTPUT 5 pF
TEMPERATURE 27 °C
FREQUENCY:VDIFF 1 kHz
CORNER ws tm wp
SIGMA 3
IDD @ 6σ 102.8 171.9 254.4 µA Conditions
VOLTAGE:VSSA 0 V
VOLTAGE:VCM 0.8 1.5 V
VOLTAGE:VDDA 2.5 V
RISETIME:VDIFF 50 ms
RESISTANCE:OUTPUT 100
CAPACITANCE:OUTPUT 5 pF
TEMPERATURE 27 °C
FREQUENCY:VDIFF 1 kHz
CORNER ws tm wp
SIGMA 6

Physical Parameters

PARAMETER MINIMUM TYPICAL MAXIMUM UNITS
device_area 15038 µm²
area 39040.37 µm²
width 270.55 µm
height 144.3 µm
DRC_errors 0
LVS_errors 0

Performance Characteristics

Gain-bandwidth product vs. Common-mode voltage

Large signal transient response (Unity gain configuration, 2Vpp

Slew rate vs. supply voltage POWER

Gain-bandwidth product vs. Supply voltage