Invesco S&P 500 High Dividend Low Volatility ETF (SPHD) Expected Move

Expected move estimates the probable price range for a given period based on at-the-money options pricing. It reflects the market consensus for volatility over the selected timeframe.

Invesco S&P 500 High Dividend Low Volatility ETF (SPHD) operates in the Financial Services sector, specifically the Asset Management - Income industry, with a market capitalization near $3.23B, listed on AMEX, carrying a beta of 0.51 to the broader market. The Invesco S&P 500 High Dividend Low Volatility ETF (SPHD) is designed to replicate the performance of the S&P 500 Low Volatility High Dividend Index. public since 2012-10-26.

Snapshot as of Jun 29, 2026.

Spot Price
$51.52
Expected Move
98.3%
Implied High
$102.18
Implied Low
$0.86
Front DTE
18 days

As of Jun 29, 2026, Invesco S&P 500 High Dividend Low Volatility ETF (SPHD) has an expected move of 98.33%, a one-standard-deviation implied price range of roughly $0.86 to $102.18 from the current $51.52. Expected move is derived from at-the-money straddle pricing and represents the market's pricing of a ±1σ move. Roughly 68% of outcomes should fall within this range under lognormal assumptions, though empirical markets have fatter tails.

SPHD Strategy Sizing to the Expected Move

With Invesco S&P 500 High Dividend Low Volatility ETF pricing an expected move of 98.33% from $51.52, risk-defined strategies sized to the implied range structurally target the modal outcome distribution. Iron condors with wings at the ±1σ expected move boundaries collect premium against the ~68% probability that spot stays inside the range under lognormal assumptions; strangles set wider at ±1.5σ or ±2σ target the tails but pay smaller per-trade premium. Long-vol structures (long straddles, ratio backspreads) profit when realized move exceeds the implied move, the inverse trade: they bet against the lognormal assumption itself, capitalizing on the empirically fatter equity-return tails.

How to read the SPHD implied-range chart

The shaded range above shows the one-standard-deviation implied price band at each listed expiration, derived from ATM implied volatility scaled to days-to-expiration. The front-tenor expected move is 98.33%, anchoring an implied range of approximately $0.86 to $102.18. Under lognormal assumptions, roughly 68% of outcomes fall inside that band; 95% fall inside ±2σ; 99.7% inside ±3σ. The empirical equity-return distribution has fatter tails than lognormal, so true tail-outcome frequency is moderately higher than these closed-form numbers suggest.

SPHD expected move and event pricing

Expected move widens with √time: a 5% 30-day move corresponds to roughly a 2.5% 7.5-day move and a 10% 120-day move. SPHD term-structure is in contango (slope 0.062), so longer-dated tenors price in proportionally more vol than √time scaling alone would suggest - typically because long-dated cycles include uncertain macro states. Combined with the 70.6% IV rank, the implied move is meaningfully wider than the typical SPHD trailing range, so even premium-selling structures need wide wings to absorb the elevated regime.

Sizing SPHD structures to the expected move

Iron condors with wings at ±1σ collect the modal-outcome premium; ±1.5σ widens probability of inside-range to ~87% but cuts collected premium roughly in half. Strangles do the inverse trade - they pay against the same lognormal distribution, profiting when realized exceeds implied. Calendar spreads bet on the slope of the term structure rather than the level. SPHD put/call volume ratio currently at 0.33 indicates speculative call flow dominates - look for upside-skewed sentiment. The expected move is the inputs the chain is pricing, not a forecast - realized moves above or below are normal under any distribution.

Learn how expected move is reported and how to read the data →

SPHD one-standard-deviation implied price range by days-to-expiration, with current spot marked as the midpointSPHD Implied Price Range by Expiration$48$50$52$54$5620d40d60d80d100d120d140d160dDays to ExpirationImplied Price Range ($)
Shaded band shows the ±1σ implied price range (~68% probability under lognormal assumptions) at each expiration; the center line marks current spot. Bands widen with longer DTE since volatility scales with √time.

Per-expiration expected move for SPHD derived from ATM implied volatility at each listed expiration. Implied high/low bounds are computed as $51.52 × (1 ± expected move %). One standard-deviation range under lognormal assumptions, roughly 68% of outcomes fall inside.

ExpirationDTEATM IVExpected MoveImplied HighImplied Low
Jul 17, 20261810.7%2.4%$52.74$50.30
Aug 21, 20265316.9%6.4%$54.84$48.20
Sep 18, 20268112.5%5.9%$54.55$48.49
Dec 18, 202617214.1%9.7%$56.51$46.53

Frequently asked SPHD expected move questions

What is the current SPHD expected move?
As of Jun 29, 2026, Invesco S&P 500 High Dividend Low Volatility ETF (SPHD) has an expected move of 98.33% over the next 18 days, implying a one-standard-deviation price range of $0.86 to $102.18 from the current $51.52. The expected move is derived from at-the-money straddle pricing and represents the market consensus for a ±1σ price move.
What does the SPHD expected move mean for traders?
Roughly 68% of outcomes should fall within ±1 expected move and 95% within ±2 under lognormal assumptions, though equity returns have empirically fatter tails than log-normal predicts. Strategies sized to the expected move (iron condors at ±1σ, strangles at ±1.5σ) target the typical outcome distribution; strategies that profit from tail moves (long-vol structures, ratio backspreads) target the tails the lognormal model under-prices.
How is SPHD expected move calculated?
The expected move displayed here is derived from at-the-money implied volatility scaled to the chosen tenor: expected move % is approximately ATM IV times sqrt(T / 365), where T is days to expiration. An equivalent straddle-based form: the ATM straddle (call + put at the same strike) is roughly sqrt(2/pi) times spot times IV times sqrt(T/365), so the implied one-standard-deviation move is approximately 1.25 times ATM straddle divided by spot. The two formulations agree once the sqrt(2/pi) constant is reconciled.