Digitech

DigiTech Obscura Altered Delay Guitar Effects Pedal - is currently on backorder. You may still purchase now though and we'll ship as soon as more become available.

In Stock & Ready to Ship!




Brand New ConditionMore InfoThis product is in the box as received from the manufacturer and comes with the original warranty.

  • ANALOG - Classic sound of a vintage bucket brigade analog delay circuit
  • TAPE - Emulates a classic tube tape echo
  • Lo-Fi - A low-fidelity delay that has limited bandwidth and reduced bit-depth to approximate the effects of low sample rate and 8-bit signal processing used in vintage digital delays
  • Reverse - A delay where the repeats are played backwards. No dry signal is present when REVERSE is selected.

The Obscura Altered Delay from DigiTech allows you to turn your delays upside down and inside out.  The Obscura’s four delay types can be darkened, degraded and distorted on the fly with the stacked Tone and Degrade controls. Combine these controls with the Obscura’s Repeat/Hold feature and lose yourself in long, trippy, gurgling repeats or backwards-manipulated sonic mayhem.  In addition to its Tone and Degrade controls, the Obscura features independent Level, Delay Mode and stacked Time and Repeats controls.

Input Separate Left and Right ¼" Unbalanced (Tip-Sleeve)
Input Impedance Effect on: >1 MΩ (stereo), >500 kΩ (mono); Effect off: True hardwire bypass
Output Separate Left and Right ¼" Unbalanced (Tip-Sleeve)
Output Impedance Effect on: 1 kΩ; Effect off: True hardwire bypass
Controls Level, Delay Type, Time, Repeats, Tone, Degrade, Delay Tails On/Off, Effect On/Off
Switches Soft Click, Vacuum Style Footswitch; Reverb Tails On/Off Toggle Switch
Power Requirements 9 VDC external power supply (required)
Power Consumption 675 mW (< 75 mA @ 9 VDC)
Current Draw 75 mA (typical at 9 VDC)
Power Supply Model PS0913DC-01 (US, JA, EU); PS0913DC-02 (AU, UK)
Power Supply Output 9 VDC 1.3 A
Dimensions 4.40” (L) x 2.65” (W) x 2.0” (H); 11.18cm (L) x 6.73cm (W) x 5.08cm (H)
Weight 1 lb; 0.453 kg