Ayatay Coin — Project Whitepaper

The Ayatay Project is a comprehensive technology initiative that integrates three major components: (1) Solar Power Plant (7+ MW), a utility-scale renewable energy facility designed to generate clean electricity and provide sustainable revenue streams, (2) Cryptocurrency Exchange Platform, a professional-grade cryptocurrency exchange with advanced trading features, secure wallet integration, and regulatory compliance, and (3) Blockchain Infrastructure & Token Ecosystem, built on BNB Chain (BSC) with native token (Ayatay Coin), smart contracts, and decentralized governance.

This project represents a unique convergence of blockchain technology, financial innovation, and renewable energy. Contributions can be made transparently on-chain using BNB or USDT on BNB Chain (BSC mainnet, Chain ID 56). All transactions are executed on BSC. The funding smart contract serves as a public record of contributions and supports auditability of key milestone reporting across all three project components.

The investment will be allocated across three core project components: (A) Solar Power Plant (7+ MW) design, construction, commissioning, and infrastructure (first priority), (B) Cryptocurrency Exchange Platform development, including trading engine, security infrastructure, user interface, compliance systems, marketing, and token listings on other exchanges (second priority), (C) Blockchain Infrastructure & Token Ecosystem development, including smart contract deployment, token distribution, security audits, and blockchain integration (third priority), and (D) Emergency reserve for risk mitigation.

• •50% — Solar power plant design, construction, commissioning, and solar power plant infrastructure (first priority)
• •30% — Cryptocurrency exchange development, marketing, and token listings on other exchanges (second priority)
• •10% — Blockchain infrastructure & token ecosystem development (third priority)
• •10% — Emergency reserve for risk mitigation and operational contingencies
• •Execution will be carried out by specialized technical engineering teams covering renewable energy systems, exchange platform engineering, and blockchain development, all led by Farzad Zare.

The solar project targets a utility-scale PV installation with engineering-led design and a focus on availability, maintainability, and safe grid interconnection.

Nameplate capacity (MW) is not the same as daily energy production (MWh/day). Real production depends on irradiance, location, weather, module temperature, and system design choices.

• •Target capacity: 7+ MW (nameplate)
• •Energy yield: site-dependent; modeled during feasibility (P50/P90)
• •Milestones: feasibility → permits → detailed engineering → procurement → construction → commissioning → operations

The design basis defines the assumptions and engineering targets used to size and build the plant. Final values are confirmed during feasibility and grid studies.

Typical design parameters include: DC/AC ratio, inverter topology (string vs. central), mounting (fixed-tilt vs. trackers), module technology (e.g., mono PERC / TOPCon), and protection philosophy (DC/AC SPD, fuses, breakers).

Key performance metrics: Performance Ratio (PR), availability, capacity factor, and curtailment impact. Safety metrics include earthing/grounding, arc-fault prevention, and compliance with grid codes.

• •Target PR and availability set early; verified during commissioning
• •DC/AC ratio selected to optimize yield vs. curtailment and inverter clipping
• •Grid code compliance: voltage/frequency ride-through and reactive power support (as required)

A utility-scale PV plant consists of PV modules, mounting structures, DC cabling, protection/combiner equipment, inverters, transformers, medium-voltage switchgear, SCADA/monitoring, and the grid connection at the Point of Interconnection (POI).

Engineering scope includes electrical single-line diagrams (SLD), cable sizing and voltage drop checks, protection coordination, grounding design, lightning protection, and communications/SCADA design.

• •PV modules: string configuration based on temperature limits and inverter MPPT windows
• •Inverters: efficiency, grid support functions, monitoring, and redundancy strategy
• •Transformers & MV: step-up to grid voltage, protection, metering, and POI requirements
• •SCADA: data acquisition, alarms, reporting, and cybersecurity controls

Energy yield is estimated using solar resource data (irradiance), terrain effects, shading analysis, and thermal models. The result is typically expressed as annual MWh and translated into expected daily averages.

Uncertainty is represented through probabilistic scenarios: P50 (median) and P90 (conservative). These scenarios consider inter-annual variability, soiling, degradation, and availability assumptions.

• •Inputs: GHI/DNI, albedo, temperature, wind, shading, soiling, degradation
• •Outputs: annual MWh, specific yield (kWh/kWp), PR, uncertainty bands (P50/P90)
• •Grid curtailment and outages are modeled as separate scenarios when applicable

Grid interconnection requires coordination with the utility and a dedicated grid study. Requirements may include protection relays, metering, communication, anti-islanding, and reactive power capability.

Commissioning includes functional testing, relay testing, power quality checks, and verification of grid support functions as required by the interconnection agreement.

• •POI design: MV switchgear, metering, protection, communications
• •Protection coordination and fault level checks
• •Power quality: harmonics, flicker, and voltage regulation

Construction is planned to minimize risk and rework: civil works, mounting, module installation, cable pulling/termination, inverter installation, MV works, and SCADA setup.

Operations & Maintenance (O&M) focuses on availability: preventive maintenance, corrective maintenance, spares strategy, cleaning/soiling management, and monitoring-driven response.

• •Commissioning: SAT/FAT where applicable, energization procedures, performance tests
• •O&M: monitoring KPIs, outage response, thermography, IV-curve testing (as needed)
• •Health & Safety (EHS): site permits, PPE, LOTO procedures, training and audits

The total token supply is 600,000,000 tokens. Of this total, 400,000,000 tokens (approximately 66.67%) are allocated for the presale round.

The presale allows early contributors to participate in the project by purchasing tokens at a fixed price of $0.01 per token. After the presale concludes and the project milestones are achieved, the token will be listed on exchanges at a target listing price of $3.00 per token.

• •Total token supply: 600,000,000 tokens
• •Presale allocation: 400,000,000 tokens (66.67% of total supply)
• •Presale price: $0.01 per token
• •Target listing price: $3.00 per token
• •Remaining tokens: Reserved for project development, team, and future initiatives

The Ayatay Project is built on BNB Chain (BSC), a high-performance blockchain network that provides fast transaction processing, low fees, and robust security. Our blockchain infrastructure includes native token (Ayatay Coin), smart contract deployment, transparent on-chain transaction tracking, and decentralized governance mechanisms.

The token ecosystem is designed to integrate seamlessly with the exchange platform and solar power plant revenue streams. Token holders benefit from transparent operations, verifiable on-chain records, and participation in the project's growth through the integrated ecosystem.

• •Native token (Ayatay Coin) on BNB Chain (BSC) with 600,000,000 total supply
• •Smart contract infrastructure for transparent presale, token distribution, and governance
• •On-chain transaction tracking and verifiable contribution records
• •Integration with exchange platform for trading and liquidity
• •Connection to solar power plant revenue streams for sustainable token value

The cryptocurrency exchange platform is a core component of the Ayatay ecosystem, providing professional-grade cryptocurrency trading infrastructure. The exchange will support multiple digital assets, advanced trading features, secure wallet integration, and comprehensive compliance frameworks.

In parallel with blockchain infrastructure and solar power plant development, we plan to develop and launch the exchange to support trading, on-ramping workflows, and broader ecosystem growth. The marketing and listing budget covers brand, content, partnerships, community growth, and the process of listing the token on third-party exchanges (subject to their requirements and approvals).

• •Exchange development: core trading engine, user interface, security infrastructure, operational controls
• •Multi-asset support: trading pairs, liquidity pools, order matching systems
• •Security: cold storage, multi-signature wallets, security audits, compliance frameworks
• •Marketing: positioning, growth campaigns, partnerships, community development
• •Token listings: application, compliance checks, technical integration with major exchanges

We will publish milestone updates and use-of-funds reporting. On-chain contribution records provide verifiable transparency, while project documents and progress reports support accountability.

The goal is to make progress visible through structured updates: what was delivered, how funds were used, and what is next.

• •Milestone-based reporting cadence (e.g., monthly)
• •High-level budget reporting aligned with the 50/30/20 allocation
• •Public presale contract address and on-chain receipts (BNB Chain)

All infrastructure and digital products carry execution and market risks. We aim to mitigate risks through staged milestones, conservative reserves, and engineering-first planning.

• •Solar: permitting delays, supply chain variability → mitigation: early permitting, vendor alternatives
• •Grid: interconnection constraints → mitigation: grid study and phased commissioning
• •Exchange: security & operational risk → mitigation: audits, monitoring, incident playbooks
• •Market: liquidity and adoption → mitigation: phased marketing and listings

This whitepaper is a high-level description. Legal, regulatory, and compliance requirements may vary by jurisdiction. Participation may be restricted in certain regions.

• •Not financial advice
• •Do your own research
• •Follow local regulations