K Series K10 2-way 10-inch Active Loudspeaker Summary description: A lightweight multipurpose 2-way portable self-powered loudspeaker system with a 10-inch cone transducer and a 1.75-inch diaphragm compression driver in an ABS enclosure. Drivers: The loudspeaker system shall incorporate two transducers: - Low-frequency driver shall be a 10-inch (254 mm) cone transducer; - High-frequency driver shall be a 1.75-inch (44 mm) diaphragm compression driver. Enclosure: The loudspeaker system shall be housed in an enclosure constructed of impact-resistant ABS plastic. The enclosure shall be finished with black paint. The front of the enclosure shall be protected with a black powder-coated 18-gauge steel grille. The back of the enclosure shall have a panel for the connectors, switches, and controls of the amplifier module. The top and left side of the enclosure shall each have an aluminum handle. The bottom of the enclosure shall have slip-resistant feet and a 35mm Tilt-Direct™ dual-angle pole socket for use with a K Series loudspeaker support pole of up to 28.5 inches (724 mm). The loudspeaker system enclosure shall have three M10-threaded inserts for suspension with forged shoulder eyebolts, two on the top and one near the bottom of the back. The loudspeaker system enclosure shall have mounting points on the top, bottom, and left/right sides for use with the accessory K10 YOKE. Electronics type and features: The loudspeaker system shall incorporate a Class D amplifier. The amplifier shall have an output power of 1000 watts continuous (500 W low frequency channel, 500 high frequency channel). The amplifier shall have an output power of 2000 watts peak. The loudspeaker system shall incorporate circuitry enabling crossovers and time alignment as well as the following proprietary digital signal processing (DSP) functions: - Digital Extension and Excursion Processing (DEEP), a non-distorting low-frequency EQ circuit that provides increased low-frequency extension without distortion or over-excursion; - Intrinsic Correction, which evens the dispersion of energy throughout the physical listening area of the loudspeaker. I/O and connectors: The loudspeaker system shall have the following input and output connections: - MIC/LINE IN connection for Input A shall be via a female hybrid 3-pin XLR/quarter-inch phone (TS or TRS) jack. When the Mic/Line switch is in the Mic position, mic-level input shall be enabled and Input A shall be balanced and have an impedance of 2260 ohms. When the Mic/Line switch is in the Line position, line-level input shall be enabled. If the line-level connection is made via XLR, Input A shall have a balanced input with an impedance of 40 kilohms. If the line-level connection is made via quarter-inch phone, Input A shall have an unbalanced input with an impedance of 20 kilohms. - LINE INPUT connection for Input B shall be via a female hybrid 3-pin XLR/quarter-inch phone (TS or TRS) jack and/or two RCA (phono) jacks (L and R). An Input B connection made via XLR shall be balanced with an impedance of 40 kilohms. An Input B connection made via quarter-inch phone shall be unbalanced with an impedance of 20 kilohms. An Input B connection made via RCA shall be unbalanced and have an impedance of 10 kilohms. If both L and R RCA jacks are used, their signals shall be summed to mono. - Direct Output A shall be a line-level signal from Input A that may be accessed via a male 3-pin XLR jack. - Direct Output B shall be a line-level signal from the hybrid XLR/quarter-inch jack of Input B without the signal from the L and R RCA jacks. Direct Output B may be accessed via a male 3-pin XLR jack. - LINE OUT shall be a mix of the line-level signal that is output from the Gain A knob with the line-level signal that is output from the Gain B knob, which shall sum the signal from the hybrid jack with the signal from the L and R RCA jacks. Line Out may be accessed via a male 3-pin XLR jack. - REMOTE GAIN connection shall be via a 3-pin "Euro" jack; - AC INLET connection shall be a latching IEC connector that takes a V-Lock power cable (included) or a standard replacement 18 gauge IEC power cord. Controls and indicators: The loudspeaker system shall include the following controls: - Power ON/OFF switch; - GAIN A knob, which shall set the amount of signal that is sent to the amplifier and to the Line Out jack from a microphone or line-level source connected to Input A via the hybrid MIC/LINE IN jack; - GAIN B knob, which shall set the amount of signal that is sent to the amplifier and to the Line Out jack from the summed line-level sources connected to Input B via the hybrid LINE INPUT jack and/or the L and R RCA jacks; - Mic/Line switch, which shall select whether Input A accepts a microphone signal or a line-level signal. If set to MIC, the microphone preamp shall be activated and the Mic LED indicator shall be lit; - LF Mode switch, which shall select one of three low frequency modes, either DEEP (for Digital Extension and Excursion Processing), EXT SUB for when the loudspeaker system is used in conjunction with an external subwoofer, or NORM (neither of the above); - HF Mode switch, which shall select one of two high frequency modes, either VOCAL BOOST, which boosts presence for greater intelligibility when the loudspeaker system is used for voice only, or FLAT (no presence boost) for reinforcement of full-range music; - Front LED switch, which shall select whether the front LED tracks the rear-panel Power LED or the rear-panel Limit LED, or is off. The loudspeaker system shall include the following indicator LEDs: - POWER shall indicate that the power switch is in the ON position and the unit is not in Standby; - STBY (Standby) shall indicate that the loudspeaker system is in standby mode, which conserves energy when the unit is not in active use; - LIMIT shall indicate that limiting has taken place to avoid damage to the amplifier or loudspeaker; - MIC shall indicate that Input A is set to operate with the signal from a microphone; - SIGNAL A shall indicate the presence of signal at the hybrid Input A connector; - SIGNAL B shall indicate the presence of signal at the hybrid and/or RCA Input B connectors; - Front LED shall track the rear-panel Power LED, the rear-panel Limit LED, or be off, depending on the position of the Front LED switch. AC power requirements: The loudspeaker system shall have a universal power supply capable of operating with input AC power voltages ranging from 100 VAC to 240 VAC at 50 – 60 Hz. Power consumption at one-eighth power shall be 2.3 A at 100 VAC, 2.01 A at 120 VAC, and 1.13 A at 230 VAC. Cooling and protection: The loudspeaker system shall incorporate a 50 mm variable speed fan for on-demand cooling. The loudspeaker system shall incorporate amplifier protection circuitry including thermal limiting, output overcurrent protection, overtemperature muting protection, and GuardRail. The loudspeaker system shall incorporate transducer protection circuitry including thermal limiting and excursion limiting, which prevents woofer over-excursion. Performance criteria: The loudspeaker system shall meet the following performance criteria: - Frequency response shall be within -6 dB at 60 Hz to 18 kHz; - Useable frequency range shall be within -10 dB at 56 Hz to 20 kHz; - Nominal coverage within -6 dB shall be 90 degrees conical; - Maximum SPL at one meter shall be 129 dB peak (calculated based upon transducer sensitivity and peak available amplifier power). Dimensions and weight: The loudspeaker system shall have the following physical characteristics: - Height shall be 20.4 inches (519 mm); - Width shall be 12.6 inches (320 mm); - Depth shall be 11.8 inches (300 mm); - Net weight shall be no more than 32 lb (14.5 kg). Model: The loudspeaker system shall be the QSC Audio Products K10.