Temple Audio 100w Stereo Amplifier Module MOD-AMP
The AMP MOD is a stereo guitar amp that mounts in the Modular Endpanel of your Templeboard. Each channel provides 50W of power for a total of 100W. When using one channel in mono mode, the AMP MOD pushes approximately 75W.
The Amp Mod utilizes DSP to simulate the tone of a traditional tube amp (Fender Twin). You can disable amp modeling using the DIP switches if using an external amp modeler, bass guitar, or in any scenario where you don’t want the character of the amp simulation. See DIP switch section for more info.
THREE BAND EQUALIZER
Use the knobs in the EQ section to boost and cut the desired frequency range. The bass, mid, and treble knobs at “12 o’clock” (straight up) will yield the most neutral response. Turning an EQ knob clockwise will increase the level of the selected frequency. Turning a knob counter-clockwise will decrease the level of the selected frequency.
HEADPHONE AMP
The AMP MOD includes a clean and powerful headphone amplifier. Plug wired headphones into the front headphone port. Control the headphone volume and tone using the knobs on the front of the AMP MOD. The impulse response cabinet simulation and DSP amp modeling work to help your guitar playing react in a familiar way.
LED INDICATOR
White: Normal operation. MOD is properly powered and functioning.
Yellow: Input level overloading the DSP input. Reduce input level.
Red: Fault or overheat. Faults indicate short circuit in speaker cable.
SPEAKER OUTPUTS
Connect 1/4” speaker cables from one or both of these outputs to your speaker cabinets.
VOLUME CONTROL
Controls the output volume for both the 1/4” outputs and the headphone amp.
LINK JACK
This is a buffered stereo output that allows you to connect the AMP MOD to other Temple Audio output MODs (eg. 4X MOD, SUM MOD, DI MOD Pro, etc). Use an 1/8" TRS to dual 1/4" TS cable (sold separately) to send the stereo output signal to other MODs.
STEREO INPUTS
Plug ¼ cables into these inputs. Plugging into the left input only will split a mono signal to both outputs. (1M input impedance)
