PCA EPF8046G

100 Base-X Interface Module
ELECTRONICS INC.
EPF8046G
• Optimized to work with ML6692/94 PHY chip •
• Guaranteed to operate with 8 mA DC bias at 70°C on cable side •
• Complies with or exceeds IEEE 802.3, 100 BX Standards •
• Robust construction allows for most severe soldering processes •
Electrical Parameters @ 25° C
Insertion Loss
(dB Max.)
OCL
@ 70°C
Return Loss
(dB Min.)
1-100
MHz
100 KHz, 0.1 Vrms
8 mA DC Bias
1-20
MHz
Cable Side
Xmit
Rcv
350µH
-1
-1
•
60
MHz
Xmit Rcv
-18
80
MHz
Xmit Rcv Xmit
-25
-8
-20
Common Mode Rejection
(dB Min.)
Crosstalk (dB Min.)
[Between Channels]
200
MHz
10-100
MHz
30-100
MHz
Rcv Xmit
Rcv Xmit
-20
-30
-6
-30
500
MHz
Rcv Xmit Rcv
-25
-25
Isolation : 1500 Vrms • Cable Impedance : 100 Ω • Rise Time : 3.0 nS Max.
•
-20
-40
-15
*Optional
•
Schematic
Transmit Channel
1
Receive Channel
8
2
7
6
2CT:1CT
3
16
9
15
14
*
10
11
1CT:1CT
12
5
Dimensions
Package
A
J
Pin 1
I.D.
Dim.
Min.
A
B
C
D
E
F
G
H
I
J
K
L
M
N
P
Q
.970
.380
.223
.700
.003
.100
.500
.016
.008
.090
0°
.025
N
PCA
EPF8046G
Date Code
B
Pad
Layout
Q
D
M
E
C
K
L
H
PCA ELECTRONICS, INC.
16799 SCHOENBORN ST.
NORTH HILLS, CA 91343
P
F
(Inches)
Max. Nom.
.990
.400
.243
Typ.
.020
Typ.
.520
.022
.012
Typ.
8°
.045
(Millimeters)
Min.
Max. Nom.
24.64
9.65
5.66
17.78
0.076
2.54
12.7
.406
.203
2.28
0°
.635
.030
.100
.092
.560
25.15
10.16
6.17
Typ.
.508
Typ.
13.20
.559
.305
Typ.
8°
1.14
.762
2.54
2.34
14.22
I
G
CSF8046Ga
Rev. 4
12/16/96
Product performance is limited to specified parameters. Data is subject to change without prior notice.
TEL: (818) 892-0761
FAX: (818) 894-5791
http://www.pca.com
100 Base-X Interface Module
ELECTRONICS INC.
EPF8046G
The circuit below is a guideline for interconnecting PCA’s EPF8046G with ML6692 or ML6694 chip applications. Further
details can be obtained from the chip manufacturer application notes.
Typical insertion loss of the isolation transformer is 0.5dB. This parameter covers the entire spectrum of the encoded
signals in 100 BX protocol. Under terminated conditions, to transmit a 2V pk-pk signal across the cable, you must adjust
the chips supporting resistor to get at least 2.12V pk-pk across the transmit pins.
Note that in the 100 BX application, you do not need a split primary. The reason is that there is no 10 Base-T to negotiate.
The receiver side can be terminated as shown or a by single 100 Ω with primary center tap taken to ground via a suitable
cap.
The phantom resistors shown around the connector have been known to suppress unwanted radiation that unused wires
pick up from the immediate environment. Their placement and use are to be considered carefully before a design is
finalized.
Also, in, some cases , there has been EMI improvement by taking pin 12 to Chassis via a cap. It may not be required: this
can be decided only during an EMC test. Same comments apply to pin 5 connection.
It is recommended that there be a neat separation of ground planes in the layout. It is generally accepted practice to limit
the plane off at least 0.05 inches away from the chip side pins of EPF8046G. There need not be any ground plane beyond
this plane.
For best results, PCB designer should design the outgoing traces preferably to be 50 Ω, balanced and well coupled to
achieve minimum radiation from these traces.
Typical Application Circuit for UTP
+5V
8
1
7
2
9
3
10
6
Xmit
Rcv
TX+
1
TX-
2
RJ45*
50Ω
14
16
EPF8046G
RX-
15
5
50Ω
4
5
RX+
50Ω
ML6692
or
ML6694
200Ω
200Ω
3
50Ω
7
8
12
.1 µF
Chassis
Ground
Capacitor
Notes : * NIC Side is shown. Hub side connection will swap pins 3-6 with 1-2.
PCA ELECTRONICS, INC.
16799 SCHOENBORN ST.
NORTH HILLS, CA 91343
CSF8046Gb
Rev. 3
12/13/96
TEL: (818) 892-0761
FAX: (818) 894-5791
http://www.pca.com