Illuminance depreciation over time notes
Illuminance depreciation over time compares an earlier reading with the current reading on the same plane.
Depreciation sequence
Enter the starting and current readings, then review the drop and annualised change.
- 1Enter the baseline
Use the earlier reading for the same plane.
- 2Enter the current reading
Use the later reading on the same plane.
- 3Enter the elapsed months
Use the time between the readings.
- 4Read the drop
Review lux drop and depreciation percent.
- 5Keep the trend note
Write the plane and condition with the result.
Application measurement fit
Match the search phrase to the plane, reading condition and diagnostic output before using the calculator.
| Search phrasing | Calculator case | Carry forward |
|---|---|---|
| Illuminance depreciation over time | A room or face measured at two different dates. | Lux drop and annualised change. |
| Before-and-after aging note | A maintenance check after months of use. | Baseline and current lux. |
| Control change review | A lighting group after ageing or cleaning changes. | Depreciation percent and annualised change. |
| Trend summary | A simple two-date measurement record. | Same plane and same condition. |
Reading the diagnostic output
Measurement calculators produce evidence notes, not compliance decisions or fixture approvals.
| Output | Technical meaning | Review item |
|---|---|---|
| Lux drop | Baseline lux minus current lux. | Main depreciation number. |
| Depreciation | Lux drop as a share of baseline lux. | Change expressed as a percent. |
| Annualised change | Depreciation scaled to 12 months. | Useful when the gap spans a shorter period. |
| Baseline lux | Earlier reading. | Keep the original reading visible. |
| Current lux | Current reading. | Keep the later point visible. |
Assumptions that stay visible
The same number can mean different things when the plane, condition or target changes.
| Assumption | Why it matters | Where it belongs |
|---|---|---|
| Same plane | Both readings should use the same plane and point basis. | State the plane beside the result. |
| Same condition | The readings should compare like with like. | Keep the operating state visible. |
| Months elapsed | The elapsed time is a simple scaling input. | Use the actual interval. |
| Trend meaning | The annualised value is only a projection. | Treat it as a planning note. |
measured plane before the number
A useful illuminance depreciation result starts with the exact measured plane. A desk row, wall face, display surface, daylight zone or control state can produce a very different reading from the neighbouring surface, even when the fixtures look similar. Naming the plane keeps the result tied to a visible lighting task.
That boundary also makes the number repeatable. If another person checks the space later, they need the same plane, approximate point positions and operating condition. The measurement note is more reliable when it travels with those plain details rather than a bare lux value.
Measurement conditions change the result
Two readings taken at different times should be read with the same fittings, daylight condition, blinds, dimming state and sensor state recorded beside the result. A point measured under daylight-only conditions should not be mixed with a point measured under full electric light unless the calculator is specifically comparing those conditions.
Australian lighting notes often become confusing when readings from different days, weather states or control states are pooled together. Keep the operating state in the note so the number remains useful after the room changes. When a grid, average or variation result looks odd, check whether the conditions were actually consistent.
Point layout is part of the evidence
For grid and reading-set calculators, the point pattern is not just admin. It shapes the average, spread, variation and target gap. A sparse grid can miss local shadows; an uneven grid can overweight one side of a room. The point count or spacing should stay visible so the reading method can be reviewed.
Keep edge offsets, rows, columns and repeated point labels with the result. Even a simple three-point reading set becomes more trustworthy when it states which face, bench, wall, daylight patch or control state was being checked.
Comparisons need the same basis
The same plane should be used for both readings is useful only when both sides describe the same lighting plane. A calculated-lux estimate and a meter reading should use the same surface, height and condition. A baseline reading and current reading should use the same operating mode and approximate point location.
If the basis changes, the difference may be real but the reason is not visible. Treat the difference as a diagnostic prompt: decide whether the gap points to output assumptions, daylight conditions, dirt, ageing, aiming, controls or simple measurement inconsistency.
Daylight is a moving input
Daylight or electric-light state changes with weather, sun angle, opening state, blinds, shading and the outdoor reference basis. Same-time indoor and outdoor readings are more useful than a daylight value copied from a different condition.
Daylight contribution and daylight-depth numbers should be read as planning evidence, not as a certified daylight design. Keep the opening condition, approximate room depth and whether electric light was on or off beside the result. That makes the page useful without pretending the sky is stable.
Targets are comparison notes
Several C4 calculators ask for a planning target. That target is a user-entered comparison line, not a compliance result. It helps show whether a reading sits above or below the chosen note and how large the gap is.
If the target comes from a project brief, internal standard or maintained-lighting table, write that source in the project file. The calculator keeps the arithmetic clear; the user remains responsible for choosing an appropriate basis for the task and space.
Averages hide variation
A single average can look acceptable while one side of a surface remains dark. Variation, spread, lowest reading and highest reading help reveal whether the average is hiding uneven lighting. Read those diagnostic outputs before treating the average as a summary.
For vertical faces, display walls and task surfaces, the lowest point can matter as much as the average. Keep the point labels and orientation clear so the next check can decide whether the issue is aiming, obstruction, surface reflectance or local fixture placement.
Australian measurement limits
illuminance depreciation pages on AuLumens are measurement and daylight planning calculators for repeatable planning notes. They stay outside workplace compliance, emergency lighting, public roads, healthcare tasks, school spaces, sports lighting and specialist design outcomes.
It is a trend note, not a certified maintenance analysis. Keep formal assessment, public-space decisions, specialist task requirements and project approvals in the appropriate project review process. The page is valuable because it records a repeatable arithmetic note before those wider decisions begin.
Keep a comparison trail
A measurement page is most useful when the result can be checked against a later visit. Record the date, approximate point labels, fitting state, blinds or shade position, meter orientation and whether the reading was made before or after cleaning, lamp replacement or control changes.
That trail turns a small lux set into practical evidence. A later reviewer can decide whether the movement came from daylight, maintenance, ageing, furniture, aiming or a changed target instead of guessing from a single final number.
A concise measurement note
A readable note includes the assessed plane, approximate point layout, meter condition, daylight or control state, target line if used, and the calculator result. For a comparison, keep both cases and the difference visible.
Keep lux-before-after and lux-meter-average nearby when the same space also needs a shorter comparison note. That context lets another person repeat the reading, revise the estimate or link the result back to the room, daylight, control or energy calculator that owns the next decision.