ROHM BD7280YG-C Voltage Follower Low Noise and Input-Output Rail-to-Rail High Speed CMOS Operational Amplifier for Automotive User Guide
- June 12, 2024
- ROHM
Table of Contents
ROHM BD7280YG-C Voltage Follower Low Noise and Input-Output Rail-to-Rail
High Speed CMOS Operational Amplifier for Automotive User Guide
This circuit simulates the frequency response with Op-Amp as a voltage follower. You can observe the AC gain and phase of the ratio of output to input voltage when the input source voltage AC frequency is changed. You can customize the parameters of the components shown in blue, such as VSOURCE, or peripheral components, and simulate the voltage follower with the desired operating condition. You can simulate the circuit in the published application note: Operational amplifier, Comparator (Tutorial). [JP] [EN] [CN] [KR]
General Cautions
Caution 1: The values from the simulation results are not guaranteed.
Please use these results as a guide for your design.
Caution 2: These model characteristics are specifically at Ta=25°C. Thus,
the simulation result with temperature variances may significantly differ from
the result with the one done at actual application board (actual measurement).
Caution 3: Please refer to the Application note of Op-Amps for details of
the technical information.
Caution 4: The characteristics may change depending on the actual board
design and ROHM strongly recommend to double check those characteristics with
actual board where the chips will be mounted on.
Simulation Schematic
How to simulate
The simulation settings, such as parameter sweep or convergence options, are
configurable from the ‘Simulation Settings’ shown in Figure 2, and Table 1
shows the default setup of the simulation. In case of simulation convergence
issue, you can change advanced options to solve. The temperature is set to 27
°C in the default statement in ‘Manual Options’. You can modify it.
Figure 2. Simulation Settings and execution
Table 1. Simulation settings default setup
| Parameters | Default | Note |
|---|---|---|
| Simulation Type | Frequency-Domain | Do not change Simulation Type |
| Start Frequency | 0 Hz | Simulate the frequency response for the frequency range |
from 0 Hz to 100 MHz.
End Frequency| 100Meg Hz
Advanced options| Balanced| –
Time Resolution EnhancementConvergence Assist| –
Manual Options| .temp 27| –
Simulation Conditions
Table 2. List of the simulation condition parameters
Instance Name| Type| Parameters| Default Value|
Variable Range| Units
---|---|---|---|---|---
Min| Max
VSOURCE| Voltage Source| Voltage_level| 2.5| 0| 5.5| V
AC_magnitude| 180m| free| V
AC_phase| 0.0| fixed| °
VDD| Voltage Source for Op-Amp| Voltagelevel| 5| 0 (Note1)| 5.5 (Note1)_|
V
AC_magnitude| 0.0| fixed| V
AC_phase| 0.0| fixed| °
SDNB| Voltage SourceFor Shutdown Setting| Voltage_level| 5| VSS| VDD| V
AC_magnitude| 0.0| fixed| V
AC_phase| 0.0| fixed| °
(Note 1) Set it to the guaranteed operating range of the Op-Amps.
Op-Amp model
Table 3 shows the model pin function implemented. Note that the Op-Amp model is the behavioral model for its input/output characteristics, and neither protection circuits nor functions unrelated to the purpose are implemented.
Table 3. Op-Amp model pins used for the simulation
| Pin Name | Description |
|---|---|
| +IN | Non-inverting input |
| -IN | Inverting input |
| VDD | Positive power supply |
| VSS | Negative power supply / Ground |
| OUT | Output |
| SDNB | Shutdown setting |
Peripheral Components
Bill of Material
Table 4 shows the list of components used in the simulation schematic. Each of
the capacitors has the parameters of equivalent circuit shown below. The
default values of equivalent components are set to zero except for the ESR of
C. You can modify the values of each component.
Table 4. List of capacitors used in the simulation circuit
Type| Instance Name| Default Value| Variable Range|
Units
---|---|---|---|---
Min| Max
Resistor| R1_1| 0| 0| 10| kΩ
RL1| 10k| 1k| 1M, NC| Ω
Capacitor| C1_1| 0.1| 0.1| 22| pF
CL1| 25| free, NC| pF
Capacitor Equivalent Circuits
(a) Property editor
(b) Equivalent circuit
The default value of ESR is 2m Ω.
(Note 2) These parameters can take any positive value or zero in
simulation but it does not guarantee the operation of the IC in any condition.
Refer to the datasheet to determine adequate value of parameters.
Recommended Products
Op-Amp
BD7280YG-C : Nano Cap™, Low Noise & Input/Output Rail-to-Rail High Speed CMOS
Operational Amplifier for Automotive. [JP] [EN] [CN] [KR] [TW] [DE] Technical
Articles and Tools can be found in the Design Resources on the product web
page.
References
- BD7280YG-C - データシートと製品詳細 | ローム株式会社 - ROHM Semiconductor
- BD7280YG-C - 데이터시트, 부품 상세 | ROHM.co.kr
- BD7280YG-C_数据表、主要规格_ROHM.com.cn
- BD7280YG-C - 數據表、主要規格 | ROHM.com.tw
- BD7280YG-C - Data Sheet, Product Detail | ROHM.com
- BD7280YG-C - Data Sheet, Produktdetails | ROHM.de
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