TDA7498E DC 15V To 36V 2X160W 8A High Power Digital Amplifier Board
TDA7498E DC 15V To 36V 2X160W 8A হাই পাওয়ার ডিজিটাল অ্যামপ্লিফায়ার বোর্ড
Adopts TDA7498E original dual-chip BTL power amplifier, high power, good sound quality, no distortion, give you a great enjoyment audience.
output power: 160 W + 160 W (Vcc = 36 V, RL = 4 Ohm, THD: 10%); Output power: 1x220 W single channel in parallel BTL (Vcc = 36 V, RL = 3Ohm, THD: 10%); High efficiency: 85%.
applicable impedance: 4 ohm, 6 ohm, 8 ohm; Four fixed gain settings available: 29.6 dB, 33.1 dB, 35.6 dB and 35.6 dB.
with standby, mute features: short the points shown in the photos to be standby or mute, can also be vague; controlled cooling temperature with forced air.
Color: Red
Support BTL mode (Short J1, J2, J3, J4 located on the back of the board amplifier)
Material: CCL
The Package Includes:
1 x Board Amplifier TDA7498E
note: photographing the light and different monitors can cause the color of the item in the image a bit different from the real thing. the allowed measurement error is +/- 1-3 cm.
adopts TDA7498E original dual-chip BTL power amplifier, high power, good sound quality, no distortion, give you a great enjoyment audience.
output power: 160 W + 160 W (Vcc = 36 V, RL = 4 Ohm, THD: 10%); Output power: 1x220 W single channel in parallel BTL (Vcc = 36 V, RL = 3Ohm, THD: 10%); High efficiency: 85%.
applicable impedance: 4 ohm, 6 ohm, 8 ohm; Four fixed gain settings available: 29.6 dB, 33.1 dB, 35.6 dB and 35.6 dB.
with standby, mute features: short the points shown in the photos to be standby or mute, can also be vague; controlled cooling temperature with forced air.
color: red
Power amplifier chip: 2 X 160W chip
Output power: 2 X 160W
Use the 4 ohm impedance horn unit
Input voltage: 36V DC
The output power: 160W+160W
Working voltage: DC 15~36V DC direct current belt input polarity protection
The sound box is large enough, and the recommended voltage is 32V, and the DC power is above 8A, and the power is too small
Horn impedance: 4 ohm,6 ohm,8 ohm
Heat dissipation mode: temperature control forced a
