Zero-Downtime Replacement: From Aironet to Catalyst 9100/916x

Introduction

Many enterprises still run legacy Cisco Aironet access points (APs). While Aironet served faithfully for years, today’s workloads—real-time collaboration, cloud-first workflows, and IoT proliferation - demand Wi-Fi 6 and Wi-Fi 6E.

Migrating to the Cisco Catalyst 9100 and 916x series brings you WPA3 security, OFDMA efficiency, and access to 6 GHz spectrum. But migrations are risky: downtime hurts productivity, and configuration mismatches frustrate IT.

This guide shows you how to plan and execute a zero-downtime replacement, mapping old Aironet models to modern Catalyst APs, staging discovery and controller registration, and validating performance after cutover.

When you plan to upgrade

Step 1: Audit Your Current Network

Before you migrate, document:

Inventory of existing APs: model, firmware, regulatory domain.
Controllers: AireOS vs Catalyst 9800.
Coverage pain points: blind spots, poor roaming, areas of user complaints.
Client mix: how many Wi-Fi 6 capable laptops/phones, how many IoT devices.
Performance issues: jitter during Teams/Zoom calls, low throughput, frequent disconnects.

Step 2: Aironet → Catalyst 9100/916x Mapping

Here’s a simplified replacement mapping matrix (most common models):

Legacy Aironet AP	Replacement Catalyst AP	Notes
Aironet 1700 / 1830	C9105AXI / AXW	Entry-level Wi-Fi 6, ideal for small offices & hospitality
Aironet 2700 / 2800	C9115AXI / C9120AXI	Balanced performance, 4×4 radios, WPA3-ready
Aironet 3700 / 3800	C9130AXI/AXE	High-density with Flexible Radio (dual 5 GHz)
Aironet 4800	C9136I (Wi-Fi 6E)	Tri-band, multi-radio, premium analytics
Aironet Outdoor (1550/1560)	C9163E (Outdoor Wi-Fi 6E)	Rugged, IP-rated, surge protected
High-density auditorium Aironet	C9164/9166/9166D1	Indoor Wi-Fi 6E, multiple antenna options

👉 This matrix avoids “feature loss.” For example, if you had Aironet with external antennas, replace with AXE or 9166D1 models to keep directional coverage.

Step 3: Controller Discovery & Join Process

Depending on your management architecture:

Option A: Catalyst 9800 Controller

Ensure 9800 is at a software release that supports 9100/916x.
Configure DHCP Option 43 and/or DNS discovery (CISCO-CAPWAP-CONTROLLER).
Pre-stage AP join profiles with RF and site tags.

Option B: Embedded Wireless Controller (EWC)

Ideal for branches (<100 APs).
Configure one Catalyst AP as controller; others join as lightweight APs.
Use auto-discovery or manually point APs.

Cutover Strategies

Parallel run: run Aironet + Catalyst APs side by side, then phase out old APs.
Rolling replacement: replace by zone, not all at once.
Rollback: keep DHCP option to point back to old controller if Catalyst fails to join.

Step 4: Change Window & Rollback Planning

Change window: schedule off-hours but when IT staff are available.
Staging: rack up Catalyst APs in lab, test join and config.
Rollback plan: Keep AireOS controller up for fallback. Maintain old APs unpowered but ready to replug if needed. Document commands to revert DHCP/DNS discovery.

Step 5: Acceptance & Validation

After migration, validate with clear test cases:

Coverage & roaming: walk-test with a mobile device, confirm no dead spots.
Performance: run speed tests, iPerf throughput, and latency measurements.
Voice/video: place Teams/Zoom calls, check jitter <30 ms and packet loss <1%.
RF tuning: monitor RRM, adjust power/channel manually if overlap is too high.
Telemetry: check DNA Center assurance for onboarding issues.

👉 Use a checklist: every floor/zone signed off before declaring success.

Deliverables to Stakeholders

Provide:

Replacement matrix (old → new AP model).
Change window plan with rollback triggers.
Post-validation report (RSSI/SNR maps, jitter tests, throughput results).
Future roadmap: when to expand to more Wi-Fi 6E coverage.

Visualization

Migration workflow diagram: Inventory → Mapping → Discovery → Cutover → Validation.
Risk matrix: Impact vs Likelihood (e.g., “AP join failure: medium impact, mitigated by DHCP fallback”).

FAQs

Q1: Can I mix Aironet and Catalyst 9100 APs during transition?
A: Yes, but ensure controller compatibility. Catalyst APs require Catalyst 9800 or EWC; they will not join legacy AireOS.

Q2: Do Catalyst 9100 APs support the same mounting kits?
A: Most use different brackets. Budget for replacement mounts to avoid last-minute surprises.

Q3: How do I migrate licenses?
A: DNA licenses are per-AP. Order new licenses with the APs; SMARTnet covers support and RMA.

Q4: What happens if an AP fails to join the controller?
A: Check DHCP/DNS discovery, software release, and certificates. As fallback, re-enable old Aironet APs.

Q5: Do I need to re-survey my site?
A: Yes. New radios, different EIRP, and 6E propagation behave differently. Always validate coverage.

Q6: How long should I keep old APs?
A: Keep them powered down but on hand for 1–2 weeks until the new WLAN proves stable.

Q7: How do I handle outdoor coverage?
A: Replace legacy outdoor Aironets with C9163E, ruggedized for weather and surge.

Conclusion

Send us your Aironet inventory: network-switch.com will build you a one-click replacement matrix.
Book a remote migration session: our engineers walk you through DHCP/DNS discovery and EWC/9800 setup.
Download templates: Replacement matrix + change window checklist.

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