Not just an replacement, but an improvement!

EML 520B-V2
and
 EML520B-V3

Last datasheet revision:
2008-March-20

Description

This  very powerful tube is recommended for new  designs. The older type 52B is not recommended any more for new designs. The 520B is a +25%  "long plate" Version of the 52B. The 520B has the  same outside dimensions as the "845" tube, but larger plates. All critical parts, like filaments, grids and plates are constructed of hard metal for higher reliability and reproducible quality.  Note the relation between the tube base, and and the glass bulb. Then compare this with our 300B.   This gives you some idea of this tube's size.

Features

  • Double Mica tube top
  • Gold plated, Wolfram Grid
  • Soft rubber suspended tube base
  • Center tapped filament
  • Slow Start filaments, for best lifetime
  • 0.5 mm thick plates
  • 10 circular coolers (4 single + 6 double plates)
  • Hard metal Construction (Note1)
  • Two extra large getters
  • Hand blown Glass bulb
  • Anti-microphonic plate- and grid  suspension
  • These tubes are shipped in a high quality dual box
  • Tube printing with real gold (metal),  red color is glass burned into the glass 
  • Machined, solid tube base pins for highest contact precision. YAMAMOTO tube sockets highly recommended. 
  • Gold plated pins,  black ceramic socket.  (White bottom.)

520B-V2/V3
Detailed image
Plate Curves
Note3
 
Filament Ratings (See note 5) 
 
520B-V2
520B-V3
Filament Voltage (AC or DC)
6.5 Volt
5.0 Volt
Tolerance on filament voltage
5%
5%
Filament Current
2 Ampere 
1,8 Ampere 
.
 
 
Maximum Conditions
(Not possible simultaneously) 
Plate Voltage 
550Volt 
Plate Current 
200mA 
Power Output in Class A 
27Watt 
Grid resistor
max. 50kOhm 
.
 

1) Maximum Power application
Not optimized for tube lifetime.
See also Note4.

Note: Only possible with Autobias. 

Plate Voltage 
530V 
Plate Dissipation 
69Watt 
Plate Current 
130mA 
Grid Voltage 
-124Volt 
Plate Impedance (Rp)
 470Ohms 
Amplification Factor 
 4.0 
Transconductance (Gm)
8,5mA/V 
Power Output in Class A
23Watt 
Load Impedance (Ra)
 1000-2400Ohm 
Grid resistor
47kOhm 
.
 

2) Typical application
Recommended operating point
See also Note4.  

All bias methods are possible
Plate Voltage 
425V 
Plate Dissipation 
55Watt 
Plate Current 
130mA 
Grid Voltage 
-90Volt 
Plate Impedance (Rp)
 480Ohms 
Amplification Factor 
 4.0 
Transconductance (Gm)
8,3mA/V 
Power Output in Class A
18,3Watt 
Load Impedance (Ra)
 1000-2400Ohm 
Grid resistor
100kOhm 
.
 
Mechanical Data 
 Size including Socket 

200 x 68 mm
7.5 x 2.7 Inch 
Single tube weight 
240 Grams 
Shipped weight 
for double box 
950 Grams 
.
 
    Note 1)  Hard metal has a higher melting point than classical nickel. Hard metal gives a more precise material shape, and does not change the shape when heated.  This ensures  reproducible tube parameters, and long term stability. Hard metals allow the most precise grid wire distance, and ensures better uniformity and linearity of the tube curves.
    Note 2)  Individual Test data, such as:  Matching Data, Grid Current, Vacuum, Filament Current, etc.,  are on the Certificate that comes with each individual Tube.  Each tube  is numbered, inside the bulb  with a metal Tag

    Note 3)  Tube Curves:  The Sofia Curve tracer can handle max. 270mA plate current, so we couldn't use it for this tube.  The plates curves are measured  point by point up to a value 400mA, and entered in an Excel worksheet. 

    Note 4)  Maximum specifications. These data are only to show the safety distance to the recommended operating point.   You can operate the tube at the maximum for a short period of time.  Exceeding the maximum, will decrease the lifetime  very rapidly.  For long term reliability,  the tube should not  be operated  above  the "typical"  dissipation  (green table) 

    Note 5) Filament current has changed, from June 2005 to the value in this datasheet. For tubes of older date, please refer to the filament current value as written on the certificate that is in the original tube box. Please inquire when this data got lost. 

    Note 6) Gold Grids is a word generally used for gold plated grids. The grids we use are made of specially pure hard metal, which is gold plated. The advantage of gold plated grids is better temperature stability, and lower grid current if the tube gets very hot.

Subscribe or unsubscribe our Mailing List
©2005. All Rights Reserved.