SMHC Fail-to-Deliver
VanEck China Semiconductor ETF (SMHC) operates in the Financial Services sector, specifically the Asset Management industry, with a market capitalization near $185.0M, listed on NASDAQ, carrying a beta of 0.00 to the broader market. An exchange-traded fund designed to give investors pure-play exposure to China's domestic semiconductor industry by tracking 25 of the largest and most liquid Chinese companies in the sector. Led by Jan van Eck, public since 2026-06-24.
Fail-to-deliver (FTD) data from the SEC tracks settlement failures where shares were not delivered within the standard settlement period. Persistent FTDs may indicate naked short selling or settlement issues and are monitored by regulators.
- Latest Date
- 2026-06-30
- Latest FTD Quantity
- 1.7M
- Latest Price
- $65.46
- 30-Day Avg FTD
- 441.7K
- 30-Day Total FTD
- 1.8M
Showing 4 days of SEC fail-to-deliver data for VanEck China Semiconductor ETF.
Learn how fails-to-deliver is reported and how to read the data →
Frequently asked SMHC fail to deliver questions
- What is the latest SMHC fail-to-deliver count?
- As of Jun 30, 2026, VanEck China Semiconductor ETF (SMHC) fail-to-deliver quantity is 1.7M shares, with a 4-day average of 441.7K shares. The SEC publishes FTD data twice monthly: first-half data at month-end, second-half around the 15th of the following month.
- What is the FTD aggregate net balance?
- FTD figures represent the aggregate net balance in NSCC's Continuous Net Settlement (CNS) system, not the gross failed-share count. The published numbers run 2-6 weeks stale relative to the underlying settlement date.
- How do SMHC FTDs affect options pricing?
- Persistent FTDs flag hard-to-borrow conditions that distort put-call parity: in HTB names, synthetic long stock (long call + short put at the same strike) trades below the frictionless-parity price by approximately the borrow rebate. The discount equals the lending revenue forgone by holding the synthetic instead of actual shares. Reg SHO threshold-list inclusion follows from sustained FTD persistence.