Wilson and Widlar Current Mirrors (Brief Overview)
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Introduction to Current Mirrors
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Today, we are delving into current mirrors, which are essential for providing stable currents in electronic circuits. Can anyone tell me what a current mirror is?
Isn't it a circuit that copies a current from one branch to another?
Exactly! A current mirror aims to reflect or 'mirror' the current flowing through one transistor into another. This is crucial in applications like biasing in amplifiers. What makes current mirrors helpful in circuits?
They help maintain constant currents despite changes in load, right?
Spot on! Now, letβs explore how simple current mirrors work before we move on to the improved designs like Wilson and Widlar.
Simple BJT Current Mirror Limitations
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Simple BJT current mirrors have their downsides, like low output resistance. Can anyone explain why that is a problem?
If the output resistance is low, the current won't remain constant as the load changes, right?
Exactly, and this can lead to inaccuracies in current control. The base current error is another issue that can reduce the mirrored current. Let's now look at how the Wilson current mirror addresses these limitations.
Does it do that by using more transistors?
Yes! The Wilson current mirror uses three transistors, which significantly increases the output resistance and improves current matching accuracy.
Wilson Current Mirror Design
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Let's dive into the Wilson current mirror. What are its key benefits?
It has higher output resistance, which helps maintain a stable current.
Correct! The output resistance can approximate Ξ²ro. Why is this significant in circuit design?
It ensures that the output current does not vary as load conditions change.
Exactly! The additional transistors in the design help to keep the collector-emitter voltage more consistent, reducing the Early effect. Now, letβs look at the Widlar current mirror.
Widlar Current Mirror Design
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The Widlar current mirror is different from Wilson. Who can explain its unique features?
It generates very low output currents by using a resistor in the emitter of the output transistor.
That's correct! This design creates a small voltage drop that allows for currents smaller than the reference current. Why would this be advantageous?
Itβs useful in circuits where low currents are necessary, like biasing low-power devices.
Exactly right! Although it doesn't offer as high an output resistance as the Wilson configuration, it is essential for specific applications.
Comparison of the Two Current Mirrors
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Let's summarize what we've learned about the Wilson and Widlar current mirrors. How do they differ?
The Wilson mirror focuses on higher output resistance and current matching, while the Widlar mirror is designed for low output currents.
Great summary! Both are critical in different applications. Does anyone have an example of where each might be used?
I'd say the Wilson mirror is excellent for biasing amplifiers, while the Widlar might be used in current sources for small signals.
Exactly! Understanding the specific use cases for each design is key to effectively utilizing them in circuit design.
Introduction & Overview
Read summaries of the section's main ideas at different levels of detail.
Quick Overview
Standard
The Wilson and Widlar current mirrors offer improved performance over simple current mirrors, addressing limitations such as output resistance and base current errors. They utilize additional transistors to enhance current matching and allow for the generation of low output currents, respectively.
Detailed
Wilson and Widlar Current Mirrors
The Wilson and Widlar current mirrors represent significant advancements in the design of current mirrors in electronic circuits, particularly in integrated circuits where precise current control is critical. These configurations overcome limitations inherent in simple current mirrors, which often include low output resistance and base current inaccuracies that affect current mirroring performance.
Wilson Current Mirror
The Wilson current mirror enhances current matching accuracy and significantly raises output resistance through the use of three transistors. This arrangement reduces the base current error and mitigates the Early effect, ensuring that the collector-emitter voltage of the mirroring transistor remains more consistent. The increased output resistance, which is roughly equal to the transistorβs beta multiplied by its small-signal output resistance, allows for more reliable current delivery across varying load conditions.
Widlar Current Mirror
The Widlar current mirror is uniquely designed to produce very small output currents, which is a challenge for traditional current mirror designs using high-value resistors. It introduces a resistor in the emitter of the output transistor, creating a slight difference in base-emitter voltage between the two transistors. This innovation allows it to mirror smaller currents effectively. However, it does not offer the same high output resistance as the Wilson configuration.
These mirrors are instrumental in applications where stable and precise monitoring of current is crucial, making them indispensable tools in modern electronic design.
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Wilson Current Mirror
Chapter 1 of 2
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Chapter Content
The Wilson Current Mirror improves current matching accuracy and significantly increases output resistance. It uses three transistors, effectively reducing the base current error and mitigating the Early effect by keeping the VCE of the mirroring transistor (Q2) more constant. Its output resistance is roughly Ξ²ro, much higher than the simple mirror.
Detailed Explanation
The Wilson Current Mirror is designed to enhance the performance of the simple current mirror. By utilizing three transistors instead of two, this configuration minimizes the error that occurs due to base currents and the Early effect, which can cause variations in the output current. The key aspect of this mirror is its ability to maintain a stable voltage (VCE) at the mirroring transistor, thus providing a more consistent output. The output resistance is much higher than that of a simple current mirror, allowing for better performance in applications where stable current is essential.
Examples & Analogies
Think of the Wilson Current Mirror like a well-organized team of people working together. In a regular mirror (simple current mirror), two people are trying to coordinate a task, but if one of them gets distracted (like base current errors), the output can be affected. Now, with the Wilson Current Mirror, thereβs a third person involved to ensure everything is running smoothly, which ensures that tasks (or output current) are completed as expected, even if some distractions occur.
Widlar Current Mirror
Chapter 2 of 2
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Chapter Content
The Widlar Current Mirror is designed to generate very small output currents (much smaller than IREF) which are difficult to achieve with a simple mirror using large resistors. It achieves this by adding a resistor in the emitter of the output transistor. This creates a small VBE difference between the two transistors, allowing for very low output currents. However, its output resistance is similar to the simple current mirror.
Detailed Explanation
The Widlar Current Mirror targets applications that require very low output currents, which are challenging to achieve using standard current mirrors. It does this by introducing an emitter resistor in the output transistor's path. This resistor causes a slight difference in the base-emitter voltage (VBE) between the two transistors, effectively enabling the mirror to output much smaller currents than the reference current (IREF). However, one trade-off is that its output resistance does not improve significantly compared to simpler designs, which can limit its effectiveness in some high-performance applications.
Examples & Analogies
Imagine trying to pour a small amount of water from a large container using a funnel that does not fit well. The Widlar Current Mirror is like modifying the funnel to be thinner at the end, allowing for just a few drops of water to come out (representing small output currents), but if the funnel doesnβt change width significantly, too much pressure may still force water through, highlighting the balance needed in creating precise outputs.
Key Concepts
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Current Mirror: A circuit configuration used to clone currents across different branches.
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Output Resistance: Essential performance metric indicating how well a current mirror maintains its output current regardless of load variation.
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Early Effect: An effect that can impact the accuracy of a current mirror by causing slight variations in the output current with changes in collector voltage.
Examples & Applications
The Wilson current mirror is used in high-fidelity audio amplifiers to maintain consistent bias currents regardless of load conditions.
The Widlar current mirror is employed in low-power circuits, such as those found in battery-operated devices, where minimal current levels are sufficient.
Memory Aids
Interactive tools to help you remember key concepts
Rhymes
For Wilson, let three transistors play, to keep current errors far away!
Stories
Imagine a valley where two hills (transistors) mirror each other's height (current). Sometimes, a third hill (Wilson) is added for perfect alignment!
Memory Tools
W-W-W: Wilson Wonderful Output. Maintaining outputs with three transistors!
Acronyms
WCM
Wilson Current Mirror - using a trio for output mastery!
Flash Cards
Glossary
- Current Mirror
A circuit that produces a copy or 'mirror' of a current through an active device.
- Wilson Current Mirror
An advanced current mirror that uses three transistors to enhance output resistance and current matching.
- Widlar Current Mirror
A specialized current mirror designed to output very small currents by incorporating a resistor in the emitter.
- Early Effect
A phenomenon in BJTs where increasing collector-emitter voltage affects the base width and thus the output current.
Reference links
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