
Reference: 400000006
Brand: DB TECHNOLOGIES
SNAP SLIDE FOR ES802 ES503 COUPLE A + B
!! FOR THIS ARTICLE THE MAXIMUM ORDER IS 2 PAIRS SPARE FOR MODEL ES802 ES503
Reference: 400000006
Brand: DB TECHNOLOGIES
!! FOR THIS ARTICLE THE MAXIMUM ORDER IS 2 PAIRS SPARE FOR MODEL ES802 ES503
Reference: 437010089
Brand: DB TECHNOLOGIES
DVA T4/T8 Pre-cut black sponge
Reference: 401040021
Brand: DB TECHNOLOGIES
HF Tweeter Driver per FM12/Opera 715 DX +
Reference: 401040020
Brand: DB TECHNOLOGIES
AEB-TW-01-08-25 401040020
Reference: 401140011
Brand: DB TECHNOLOGIES
ARENA 12 -ARENA 15 -DVA K5 -DVX D8HP -FLEXSYS F12
Reference: 401020095
Brand: DB TECHNOLOGIES
FLEXSYS F12 -OPERA 402D -OPERA 512DX -OPERA 712DX -OPERA 712BLINE
Reference: 401020097E
Brand: DB TECHNOLOGIES
SPEACKERS SPARE FOR MODEL: -OPERA 405D-OPERA 515DX-OPERA 715DX-OPERA 715BLINE
Typical characteristic:
Ua = 250 V
Ug2 = 250 V
Ia = 140 mA
Ig2 = max. 7 mA
-Ug1 = 15 V
S = 11,5 mA/V
Ri = 12 kΩ
μ-g1-g2 = 8
A.F. BEAM PENTODE
KT88 is a beam output pentode with an octal base and power of 42W. Very powerful, with strong bass and very bright highs. It can also be used in 6550 amplifiers.
Base: OCTAL
Uf = 6,3 V
If = ca 1,6 A
Typical characteristic:
Ua = 250 V
Ug2 = 250 V
Ia = 140 mA
Ig2 = max. 7 mA
-Ug1 = 15 V
S = 11,5 mA/V
Ri = 12 kΩ
μ-g1-g2 = 8
Triode Conncected
Ua, g2 = 250 V
Ia+g2 = 147 m A
-Ug1 = 15 V
S = 12 mA/V
Ri = 670 Ω
μ = 8
No customer reviews for the moment.
Reference: EL202
Brand: JJ ELETRONIC
Typical characteristic:Ua = 250 VUg2 = 250 VIa = 140 mAIg2 = max. 7 mA-Ug1 = 15 VS = 11,5 mA/VRi = 12 kΩμ-g1-g2 = 8
Reference: el20 - color
Brand: JJ ELETRONIC
KT88 JJ Electronic red/blue Single / Couple / Quartet Match Typical characteristic:Ua = 250 VUg2 = 250 VIa = 140 mAIg2 = max. 7 mA-Ug1 = 15 VS = 11,5 mA/VRi = 12 kΩμ-g1-g2 = 8
Reference: EL201
Brand: JJ ELETRONIC
Typical characteristic:Ua = 250 VUg2 = 250 VIa = 140 mAIg2 = max. 7 mA-Ug1 = 15 VS = 11,5 mA/VRi = 12 kΩμ-g1-g2 = 8
Typical characteristic:
Ua = 250 V
Ug2 = 250 V
Ia = 140 mA
Ig2 = max. 7 mA
-Ug1 = 15 V
S = 11,5 mA/V
Ri = 12 kΩ
μ-g1-g2 = 8