Your cart is empty
Add prompt packs to continue
Copy, paste and use them in your favorite AI:
Just $0.08 per prompt · one-time payment
100 resources included
Set of specialized prompts for electricians and installation technicians, aimed at professionalizing documentation and construction management. This tool facilitates the writing of field reports and the creation of budget templates, in addition to optimizing cost analysis, material estimation and technical diagnosis through case studies and setting up simulation scenarios.
He acts as a Senior Relationship Marketing and Customer Success Consultant with 20 years of experience in the technical services and renovations sector. Your mission is to design a comprehensive, ultra-personalized loyalty strategy for my electricity business, [Company Name], to turn customers who requested timely service into brand advocates and lifelong repeat customers. Firstly, it develops a 'Subscription Preventive Maintenance' program adapted to the needs of [Customer Type: Residential/Commercial/Industrial]. This program must include an annual audit of the electrical panel, review of charging points and optimization of energy consumption. It details exclusive benefits for members, such as the 'Response Guarantee in less than [Number of hours] hours' and specific discounts on the installation of new technologies such as [Specific technology: Home Automation/Solar Panels]. Second, create a post-service communication calendar based on the customer lifecycle. Design a sequence of 5 key touchpoints: 1) A thank you message and quality survey within 24 hours of service; 2) An energy saving tip after 30 days; 3) An electrical safety reminder at 6 months; 4) A 12-month seasonal review offer; and 5) A special detail for the anniversary of the first service. Set the tone of voice for these messages, ensuring it is [Tone of voice: Close/Professional/Technical]. Third, propose a referral incentive system (Referral Program) that motivates my current clients to introduce me to [Target Client Profile: Property Managers/Local Business Owners]. The system should be easy to understand and rewarding, using [Reward Type: Service Credit/Gift Cards/Donations] as an engine for growth. Explain how to implement this tactic without making it seem like a hard sell. Finally, it generates a list of 5 specific KPIs (Key Performance Indicators) to measure the health of my recurring customer base, including calculating Customer Lifetime Value (LTV) and Churn Rate. The plan should be practical, low-cost to implement, and highly scalable for a self-employed electrician or small electrical service company. If any key information needed to fill the bracketed fields is missing, ask me the necessary questions before answering.
Instant access after purchase from your dashboard. Just copy and paste into your AI.
ChatGPT, Claude, Gemini, DeepSeek, Grok, Qwen and any AI chat.
Yes. Every prompt includes bracketed fields where you insert your own information, context and specifics, so they fit your situation, country or industry.
Yes. Above you can read full sample prompts, exactly as you'll receive them, to check the quality before paying.
Yes. Pay once and they're yours forever, updates included.
He acts as a Senior Consulting Engineer specialized in Energy Management and Power Systems. Your mission is to write a high-level technical-economic proposal for the implementation of a reactive energy compensation system at the [Nombre_Empresa] plant, which operates in the [Tipo_Industria] sector. The facility currently has a power factor of [Factor_Potencia_Actual], which generates significant penalties under the [Tarifa_Electrica] tariff and reduces the load capacity of the existing transformers. The document must begin with a rigorous technical diagnosis. Using [Principales_Cargas] data (such as induction motors, welding equipment, or variable frequency drives), physically explain why the mismatch between voltage and current is affecting system efficiency. Calculates the necessary reactive power (Q in kVAR) to raise the power factor from the current value to the target of [Objetivo_Factor_Potencia], clearly showing the complex power formulas and the power triangle applied to the case. Proposes a specific and justified solution architecture. Determine if the best technical strategy is global compensation in the secondary of the main transformer using an automatic bank, group compensation in motor control centers (MCC) or individual compensation in higher power loads. It details the suggested components: capacitor banks with metallized polypropylene cells, intelligent controllers with microprocessors for optimized switching, solid state protections and, if harmonic distortion is present, specifies the need for rejection reactances (detuning filters) to avoid parallel resonance phenomena. Develop a detailed and compelling financial analysis. Estimate the total cost of the project, including equipment supply, installation materials and specialized labor, adjusted to the [Presupuesto_Estimado] budget. Calculate the Payback (investment recovery period) by comparing the initial investment against the projected monthly savings due to the elimination of fines for low power factor and the possible bonuses granted by the electricity supplier. Project the Net Present Value (NPV) of the investment for 5 years. Conclude with an executive summary highlighting indirect operational benefits: improved voltage profile at internal nodes, reduced Joule losses in power conductors, and freeing up KVA capacity in existing electrical infrastructure. The tone must be professional, technically authoritative and persuasive for financial management, aligning the proposal with the organization's sustainability and operational efficiency objectives. If any key information needed to fill the bracketed fields is missing, ask me the necessary questions before answering.
He acts as a Senior Engineer in Electrical Engineering with more than 20 years of experience in the diagnosis of highly complex control and power systems. Your objective is to design a comprehensive continuity testing protocol for a [Describe the system, e.g. Programmable Logic Control with multiple communication buses or 400V Power Distribution Board] system. This analysis should not be limited to the simple 'beep' check of a conventional multimeter, but should integrate low resistance measurement methodologies (4-wire Kelvin) and conductor integrity analysis in environments with high electromagnetic interference or presence of harmonics. For the proposed scenario in [Location or Industrial Plant], develop a technical guide that details the use of precision micro-ohmmeters to detect cold connections, sulfation in terminals and degradation of conductors that present a 'phantom continuity' or misleading. You must consider critical variables such as the total length of the conductors, the cross section of [Specify section in mm2 or AWG] and the contact resistance limits allowed according to the manufacturer. The protocol must necessarily include the safe disconnection procedure following regulations [Specify regulations, e.g.: NFPA 70E or UNE-EN 50110] and rigorous verification of the absence of residual voltage before proceeding with the low impedance tests. The final report generated must be structured in an advanced diagnostic matrix that relates the ohmic values obtained with the real health status of the circuit. If resistance values greater than [Resistance threshold in mΩ] are detected, the system must suggest immediate corrective actions, such as re-tightening with a torque wrench to a torque of [Torque Value] or replacing the affected section due to suspected internal filament breakage. In addition, it includes a specialized section on the use of Time Domain Reflectometry (TDR) to locate points of partial discontinuity or impedance changes in shielded cables of more than [Total Length] meters, where physical access for visual inspection is impossible. Finally, it provides a detailed checklist for the field technician that includes pre-calibration of measurement equipment, resistance compensation of test leads, and methodology for photographically documenting critical measurement points. The tone of the prompt must be technical, analytical and oriented towards maximum operational security, guaranteeing that the [Name of critical subsystem] circuit recovers its nominal reliability and unplanned downtime due to intermittent continuity failures is minimized. If any key information needed to fill the bracketed fields is missing, ask me the necessary questions before answering.
It's a master instruction, optimized for AI.
Prompt
your instruction
AI
Result
LOYALTY STRATEGY — electrical business 1. Customer segmentation · Recurring, referrers and one-time buyers 2. Value program · Annual preventive maintenance + extended warranty · Automated WhatsApp reminders 3. Referrals · Incentive per referred client + welcome kit
··· the full result continues ···
Based on 5 reviews
Worth every penny. The quality of the answers I get improved a lot. An investment that pays for itself.
I was impressed by the quality. They saved me hours of work in the first week. Totally recommend them.
It does the job, though I expected a bit more. They work as a starting point. Could be better but useful.
It's fine, nothing more. I had to tweak them quite a bit for my case. Could be better but useful.
I didn't expect them to be this complete. They saved me hours of work in the first week. One hundred percent recommended.