Gsd-skill-creator electronics

Electronics Educational Pack — routes queries to 15 modules covering Ohm's law through PCB design

install

source · Clone the upstream repo

git clone https://github.com/Tibsfox/gsd-skill-creator

Claude Code · Install into ~/.claude/skills/

T=$(mktemp -d) && git clone --depth=1 https://github.com/Tibsfox/gsd-skill-creator "$T" && mkdir -p ~/.claude/skills && cp -r "$T/packs/electronics" ~/.claude/skills/tibsfox-gsd-skill-creator-electronics && rm -rf "$T"

manifest: packs/electronics/SKILL.md

source content

Electronics Educational Pack

Comprehensive electronics curriculum grounded in The Art of Electronics (Horowitz & Hill, 3rd ed., 2015). Covers 15 modules across 4 tiers, from Ohm's law through PCB design, with interactive labs powered by MNA circuit simulation and digital logic simulation.

Routing

Given a user topic, this skill routes to the appropriate module by matching trigger keywords against the 14 domain skills defined in

chipset.yaml

routeToModule(topic: string): string | null

Accepts a topic string (user query or keyword) and returns the target module directory name, or

null

if no match is found.

Algorithm:

Normalize the topic string (lowercase, trim whitespace)
Match against each skill's
```
triggers
```
array from
```
chipset.yaml
```
If multiple skills match, prefer the most specific match (longest matching trigger string)
Return the matched skill's
```
module
```
field (e.g.,
```
"01-the-circuit"
```
)
For
```
industrial-and-applied
```
(multi-module skill), return the best-fit module from
```
[13-plc, 14-off-grid-power, 15-pcb-design]
```
based on the specific trigger matched
If no trigger matches, return
```
null
```

Keyword-to-Module Routing Table:

Keyword	Module	Skill
voltage, current, resistance, ohm, kirchhoff, power, series, parallel, divider	01-the-circuit	circuit-fundamentals
capacitor, inductor, RC, RL, RLC, filter, resonance, thevenin, norton, impedance	02-passive-components	passive-components
AC, frequency, bode, decibel, dB, noise, signal, coupling, spectrum, waveform	03-the-signal	signal-analysis
diode, rectifier, zener, LED, shockley, clamping, bridge, I-V curve	04-diodes	diode-circuits
transistor, BJT, MOSFET, amplifier, common-emitter, emitter-follower, current-mirror, beta, gain	05-transistors	transistor-circuits
op-amp, operational amplifier, inverting, non-inverting, integrator, differentiator, comparator, golden rules, active filter	06-op-amps	op-amp-circuits
power supply, regulator, buck, boost, switching, linear, 7805, LDO, ripple, thermal, battery	07-power-supplies	power-supply-design
logic gate, boolean, AND, OR, NOT, NAND, NOR, XOR, CMOS, truth table, K-map, de morgan	07a-logic-gates	logic-gate-design
flip-flop, counter, register, state machine, clock, latch, moore, mealy, SRAM, memory	08-sequential-logic	sequential-logic
ADC, DAC, sampling, nyquist, quantization, R-2R, SAR, sigma-delta, aliasing	09-data-conversion	data-conversion
DSP, FIR, IIR, FFT, DFT, filter design, convolution, windowing, fixed-point	10-dsp	dsp-fundamentals
microcontroller, MCU, GPIO, UART, SPI, I2C, interrupt, PWM, Arduino, ESP32	11-microcontrollers	microcontroller-systems
sensor, actuator, Wheatstone, H-bridge, stepper, thermocouple, optocoupler, strain gauge, instrumentation amplifier	12-sensors-actuators	sensor-actuator-systems
PLC, ladder logic, off-grid, solar, MPPT, PCB, layout, Gerber, PID, Modbus, NEC	13-plc / 14-off-grid-power / 15-pcb-design	industrial-and-applied

Modules

#	Module	Tier	Topics
1	The Circuit	1	V, I, R, Ohm's law, KVL/KCL, voltage dividers, power
2	Passive Components	1	Capacitors, inductors, RC/RL/RLC, filters, Thevenin/Norton
3	The Signal	1	AC, frequency response, Bode plots, dB, noise
4	Diodes	2	I-V curves, rectification, Zener, LEDs, Shockley equation
5	Transistors	2	BJT, MOSFET, amplifiers, common-emitter, current mirrors
6	Op-Amps	2	Golden rules, inverting/non-inverting, active filters, integrators
7	Power Supplies	2	Linear/switching regulators, buck/boost, LDO, thermal
7A	Logic Gates	3	Boolean algebra, CMOS, truth tables, K-maps, De Morgan's
8	Sequential Logic	3	Flip-flops, counters, state machines, registers, memory
9	Data Conversion	3	ADC/DAC, sampling, Nyquist, quantization, aliasing
10	DSP	3	FIR/IIR, FFT/DFT, convolution, windowing, fixed-point
11	Microcontrollers	4	MCU, GPIO, UART/SPI/I2C, interrupts, PWM
12	Sensors & Actuators	4	Wheatstone, H-bridge, stepper, thermocouples, inst. amps
13	PLC	4	Ladder logic, PID, structured text, Modbus, IEC 61131-3
14	Off-Grid Power	4	Solar PV, MPPT, batteries, charge controllers, NEC
15	PCB Design	4	Layout, design rules, EMI, Gerber files, soldering

Learning Progression

The curriculum follows a 4-tier pipeline, where each tier builds on the previous:

Tier 1 (Foundations) -- Modules 1-3 Voltage, current, resistance, passive components, and AC signals. No active devices. All labs use passive circuits only. Safety: Annotate mode.

Tier 2 (Active Devices) -- Modules 4-7 Semiconductors (diodes, transistors), op-amps, and power supplies. Introduces nonlinear behavior and active circuit design. Safety: Gate mode for higher voltages.

Tier 3 (Digital & Mixed-Signal) -- Modules 7A, 8, 9, 10 Logic gates, sequential circuits, data conversion, and DSP. Bridges analog and digital domains. Safety: Annotate (logic) to Gate (mixed-signal).

Tier 4 (Applied Systems) -- Modules 11-15 Microcontrollers, sensors, PLCs, off-grid power, and PCB design. Real-world applications combining all previous tiers. Safety: Gate to Redirect mode for industrial/high-voltage.

Configuration

See

chipset.yaml

for detailed skill triggers, agent assignments, and pipeline topology. See

metadata.yaml

for pack identity, version, and tier structure. See

references/bibliography.md

for H&H citation conventions. See

references/hh-chapter-map.md

for chapter-to-module mapping.