ETC 78Q8392L-CP

78Q8392L
Low Power Ethernet
Coaxial Transceiver
February 1998
DESCRIPTION
FEATURES
The 78Q8392L Ethernet Transceiver is a low power
BiCMOS coax line transmitter/receiver. The device
includes analog transmit and receive buffers, a 10
MHz on-board oscillator, timing logic for jabber and
heartbeat functions, output drivers and bandgap
reference, in addition to a current reference and
collision detector.
•
Very low power consumption
•
Compliant with Ethernet II, IEEE 802.3
10Base5 and 10Base2
•
Integrates all transceiver functions except
signal and power isolation
•
Innovative
design
minimizes
external
components count and power consumption
•
Jabber timer function integrated on chip
•
Externally selectable CED heartbeat allows
operation with IEEE 802.3 compatible
repeaters
•
Squelch circuitry at all inputs rejects noise
•
Power-on reset and test modes
•
Advanced BiCMOS process
This transceiver provides the interface between the
single-ended coaxial cable signals and the
Manchester-encoded differential logic signals.
Primary functional blocks include the receiver,
transmitter, collision detection and jabber timer. This
IC may be used in either internal or external MAU
environments.
The 78Q8392L is available in 16-pin plastic and 28pin PLCC packages.
CONNECT DIAGRAM
510 ±5%
x4
–9V
1
COLLISION
SIGNAL
TO DTE
CD+
VEE
VEE
2
CD–
VEE
CDS
3
TXO
RXI
DATA TO
DTE
6
7
DATA FROM
DTE
RX+
RX–
GND
HBE
5
13
16
15
14
10
9
TX+
78
RR8
4
TXRR+
12
11
COAX
78Q8392L
Low Power Ethernet
Coaxial Transceiver
The filter outputs a correctly shaped and bandlimited
signal to the transmit output driver, which drives the
transmission medium through a high impedance
current source. When the transmitter is off, the
capacitance of the transmit driver is isolated from the
transmission media by an external diode with a low
capacitance node. The shield of the transmission
media serves as the ground return for the transmitter
function.
FUNCTIONAL DESCRIPTION
The 78Q8392L incorporates six basic functions of
the Ethernet Transceiver, including receiving,
transmitting, collision signaling, collision detection,
jabber timing, and the heartbeat function. Refer to
Figure 1 for a general system block diagram.
RECEIVER FUNCTIONS
The receiver senses signals through the RXI input,
which minimizes reflections on the transmission
media using a low capacitance, high resistance input
buffer amplifier. The CDS ground input attaches
directly to the input buffer from the coaxial shield to
eliminate ground loop noise.
A transmit squelch circuit, which consists of a pulse
threshold detector, a pulse width detector, and a
pulse duration timer, is used to suppress noise, as
well as crosstalk on the AUI cable. The squelch
circuitry disables the transmit driver if the signal at
TX+ or TX- is smaller than the pulse threshold. Pulse
noise is rejected by a pulse width detector that
passes only pulses with durations greater than 20 ns.
The pulse duration timer disables the transmit driver
if no pulses are received for two-bit periods following
valid pulses. At the end of a transmission, the pulse
duration timer disables the transmitter and triggers
the blanking timer, used to block “dribble” bits.
In addition to the input buffer, the receiver data path
consists of an equalizer, data slicer, receiver squelch
circuitry, and an output line driver.
The equalizer improves the cable-induced jitter; the
data slicer restores equalized received signals to fast
transition signals with binary levels to drive the
receiver line driver; and the receiver line driver drives
the AUI cable through an isolation transformer that
connects to the AUI interface.
COLLISION DETECTION
A collision occurs when two or more transmitters
simultaneously transmit on the transmission media. A
collision is detected by comparing the average DC
level of the transmission media to a collision
threshold. The received signal at RXI is buffered and
sent through a low pass filter, then compared in the
collision threshold circuit. If the average DC level
exceeds a collision threshold, a 10 MHz signal is
output on the CD± pins.
Noise on the transmission media is rejected by the
receiver squelch circuitry, which determines valid
data via three criteria: Average DC level, pulse width
and transition period. The DC voltage level is
detected and compared to a set level in the receiver
comparator circuit. The pulse width must be greater
than 20 ns to pass the narrow pulse filter; the
transition timer outputs a true level on the RX Data
Valid line provided the time between transitions is
less than about 200 ns. As long as a valid RXI signal
is detected, the output line driver remains enabled.
The transition timer disables the line driver when
there are no further transitions on the data medium,
and the RX+, RX- pins go to a zero differential
voltage state (Figure 3).
COLLISION SIGNALING
When collision signaling is enabled, a 10 MHz signal
is sent from the CD± pins through an isolation
transformer to the DTE. When the function is
disabled, this output goes to a zero differential state.
The 10 MHz output from the CD pins indicates a
collision on the transmission media, a heartbeat
function, or that the transmitter is in jabber mode.
TRANSMITTER FUNCTIONS
The transmitter data path consists of a transmit input
buffer, pulse-shaping filter, transmit squelch
circuitry and transmit output line driver. The
self-biasing transmit input buffer receives data
through an isolation transformer and translates the
AUI differential analog signal to square pulse suitable
for driving the pulse shaping filter.
2
78Q8392L
Low Power Ethernet
Coaxial Transceiver
JABBER FUNCTION
HEARTBEAT FUNCTION
When valid data on the TX± pins detected, the jabber
timer is started. If there is valid data for more than 20
ns, a latch is set which disables the transmitter
output and enables the 10 MHz output on the CD±
pins. The latch is reset within 0.5 seconds after the
valid data is removed from the transmitter input
(TX±). This action resets the jabber timer and
disables the 10 MHz CD output. The TX± inputs
must remain inactive during the 0.5 second reset
period.
The 10 MHz CD outputs are enabled for about 1 µs
at approximately 1.1 µs after the end of each
transmission. The heartbeat signal tells the DTE that
the circuit is functioning. This is implemented by
starting the heartbeat timer when the valid data
signal indicates the end of a transmission. This
function is disabled when HBE pin is tied to VEE.
DATA MEDIA
RXI
RECEIVER
INPUT
BUFFER
SLICER
RX+
EQUALIZER
RXCDS
RX DATA
VALID
NARROW
PULSE
FILTER
TRANSITION
PERIOD
TAMER
ENABLE
SQUELCH
COMPARATOR
LP FILTER
SQUELSH
THRESHOLD
COLLISION
COMPARATOR
TRANSMIT
OUTPUT DRIVER
COLLISION
THRESHOLD
TRANSMIT INPUT
BUFFER
TXO
BUFFERED TX
PULSE
SHAPING
FILTER
TX+
SLICER
TX-
TX DISABLE
TX ON
CONTROL LOGIC
JABBER TIMER
TX DATA VALID
TRANSITION
PERIOD
TIMER
NARROW
PULSE
FILTER
TX ± > -250 mV
TX ± < -250 mV
BLANKING TIMER
COMPARATOR
END TRANSMIT
HEART BEAT TIMER
TRANSITION
END
TIMER
TX± DISABLE
SIGNAL
PRESET
DETECT
10 MHz
OSC
CD ± ON
ENABLE
CD+
CD-
BANDGAP
REFERENCE
AND CURRENT
REFERENCE
FIGURE 1: 78Q8392L General System Block Diagram
3
RR+
RR-
78Q8392L
Low Power Ethernet
Coaxial Transceiver
PIN DESCRIPTION
NAME
TYPE
DESCRIPTION
CD+*/CD-
O
Collision Output. Balanced differential line driver outputs from the collision detect
circuitry. The 10 MHz signal from the internal oscillator is transferred to these outputs
in the event of collision, excessive transmission (jabber), or during CD Heartbeat
condition. These outputs are open emitters; pulldown resistors to VEE are required.
When operating into a 78Ω transmission line, these resistors should be 510Ω. In
Cheapernet applications, where the 78Ω drop cable is not used, higher resistor
values (up to 1.5k) may be used to save power.
RX+*/RX-
O
Receive Output. Balanced differential line driver outputs from the Receiver. These
outputs also require 510Ω pulldown resistors.
TX+*/TX-
I
Transmit Input. Balanced differential line receiver inputs to the Transmitter. The
common mode voltage for these inputs is determined internally and must not be
externally established. Signals meeting Transmitter squelch requirements are
waveshaped and output at TXO.
HBE
I
Heartbeat Enable. This input enables CD Heartbeat when grounded or left opened,
disables it when connected to VEE.
RR+/RR-
I
External Resistor. A fixed 1 kΩ 1% resistor connected between these pins
establishes internal operating currents.
RXI
I
Receive Input. Connects directly to the coaxial cable. Signals meeting Receiver
squelch requirements are equalized for inter-symbol distortion, amplified, and output
at RX+ and RX- pin.
TXO
O
Transmit Output. Connects via an isolation diode to the coaxial cable.
CDS
I
Collision Detect Sense. Ground sense connection for the collision detect circuit. This
pin should be connected separately to the shield to avoid ground drops from altering
the receive mode collision threshold.
GND
S
Positive Supply Pin.
VEE
S
Negative Supply Pins. These pins should be connected to a large metal frame area
on the PC board to handle heat dissipation, and bypassed to the GND pin with a 0.1
µF capacitor as close to the package as possible.
*IEEE names for CD± = CI±, RX± = DI±, TX± = DO±
Notes: Pin type: I-input; O-output; S-power supply
4
78Q8392L
Low Power Ethernet
Coaxial Transceiver
ELECTRICAL SPECIFICATIONS
ABSOLUTE MAXIMUM RATINGS
Absolute maximum ratings indicate limits beyond which permanent damage may occur. Continuous operation at
these limits is not recommended; operations should be limited to those conditions specified under recommended
operating characteristics.
PARAMETER
RATING
Supply Voltage
-10V
Input Voltage
0 to VEE
Storage Temperature
-65 to 150°C
Soldering (Reflow or Dip)
235°C for 10 sec
Package power dissipation
1.0 watts @ 25°C
DC OPERATING CHARACTERISTICS
0°C ≤ T (ambient) ≤ +70°C, VEE = -9V ± 5%
PARAMETER
CONDITION
MIN
NOM
MAX
UNIT
IEE1
Supply current out of
VEE pin - non-transmitting
6
8
mA
IEE2
Supply current out of
VEE pin - transmitting
50
65
mA
IRXI
Receive input bias
current (RXI)
Transmit output dc
current level (TXO)
Transmit output ac
current level (TXO)
Collision threshold
(Receive mode)
Differential output voltage
(RX±, CD±)
Common mode output
voltage (RX±, CD±)
Differential output voltage
imbalance (RX±, CD±)
Transmitter squelch
threshold (TX±)
Input capacitance (RXI)
+25
µA
45
mA
ITDC
mA
-1.404
V
±1200
mV
-2.0
V
±40
mV
-200
mV
ITDC
ITAC
VCD
VOD
VOC
VOB
VTS
CX
RRXI
RTXO
Shunt resistance –
non-transmitting (RXI)
Shunt resistance –
transmitting (TXO)
See Note 3
-2
See Note 4
37
See Notes 4 & 5
±28
See Note 9
-1.58
See Notes 3 & 7
±550
See Note 3, 6 & 7
-3.0
41
-1.52
-2.5
See Notes 3, 7 & 8
-340
See Note 3
100
See Note 4
200
5
-260
1.2
pF
150
kΩ
kΩ
78Q8392L
Low Power Ethernet
Coaxial Transceiver
6. Operating or idle state.
DC OPERATING CHARACTERISTICS (continued)
NOTES
7. Test load as shown in Figure 2.
1. Currents into device pins are positive, currents
out of device pins are negative. If not
specified, voltages are referenced to ground.
8. Device measurement taken in idle state.
9. This threshold can be determined by
monitoring the CD± output with a DC level in
RXI.
2. All typicals are for VEE = -9V, Ta = 25°C.
3. -8.55V > VEE > -9.45V.
4. The voltage on TXO is -4V < V(TXO) < 0.0V.
5. The AC current measurement is referenced to
the DC current level.
GND
+
VOC
-
RX+
or
CD+
+
510Ω ±5%
VOB
ETHERNET
XCVR
50 µH ±1%
+
VOD = VCOM
78 ±1%
VEE
-
RXor
CD-
510Ω ±5%
VEE
FIGURE 2: Test Load for CD± or RX±
6
-
78Q8392L
Low Power Ethernet
Coaxial Transceiver
AC OPERATING CHARACTERISTICS
0°C < T(ambient) < +70°C, VEE = 9V ± 5%
PARAMETER
tRON
Receiver startup delay
(RXI to RX±)
tRd
Receiver propagation delay
(RXI to RX±)
tRr
Differential outputs rise time
(RX± , CD±)
tRf
Differential outputs fall time
(RX± , CD±)
tRJ
Receiver & cable total jitter
tTST
tTd
tTr
tTf
tTM
CONDITION
MIN
Transmitter startup delay
(TX± to TXO)
Transmitter propagation
delay (TX± to TXO)
Transmitter rise time –
10% to 90% (TXO)
Transmitter fall time90% to 10% (TXO)
tTr and tTf mismatch
NOM
400
MAX
500
UNIT
ns
10
50
ns
4
5
ns
4
5
ns
2
4
ns
100
200
ns
35
50
ns
20
25
30
ns
20
25
30
ns
0.5
2
ns
tTON
Transmit turn-on pulse
width at VTS (TX±)
8
20
30
ns
tTOFF
Transmit turn-off pulse
width at VTS (TX±)
140
160
180
ns
tCON
Collision turn-on delay
700
900
ns
tCOFF
Collision turn-off delay
2000
ns
11.5
MHz
60
ns
fCD
Collision frequency (CD±)
8.5
tCP
Collision pulse width (CD±)
40
tHON
CD Heartbeat delay
(TX± to CD±)
CD Heartbeat duration
(CD±)
Jabber activation delay
(TX± to TXO off and CD±)
Jabber reset unjab time
(TX± to TXO and CD±)
Receive Off Pulse Width
(RX+ to RX-)
0.6
1.0
1.6
µs
0.6
1.0
1.5
µs
60
ms
650
ms
tHW
tJA
tJR
tRO
10
20
250
200
7
500
ns
78Q8392L
Low Power Ethernet
Coaxial Transceiver
ELECTRICAL SPECIFICATIONS (continued)
RECEIVE SPECIFICATIONS
TRANSMIT SPECIFICATIONS
The first bit sent from RX± may have data and phase
violations. The second through last bit reproduce the
received signal with less than or equal to the specified
jitter.
The first bit transmitted from TXO may have data and
phase violations. The second through last bit reproduce
the TX± signal with less than or equal to the specified
jitter.
There is no logical signal inversion between the RXI
input and the RX± output. A high level at RXI produces
a positive differential voltage from RX+ to RX-.
There is no logical signal inversion between Tx± and TXO
output. A low level from TX+ to TX- results in more
current flowing from the coaxial cable into the TXO pin.
At the end of transmission, when the transmitter
changes from the enabled state to the idle state, no
spurious pulses are generated, i.e., the transition on
TXO proceeds monotonically to zero current.
RXI
50%
tRd
tRON
tRO
90%
50%
RX±
10%
1st BIT
tRr
tRf
FIGURE 3: Receiver Timing
TX±
50%
VTS
VTS
tTON
tTOFF
tTd
tTST
TXO
90%
90%
50%
10%
tTF
10%
tTr
FIGURE 4: Transmitter Timing
8
78Q8392L
Low Power Ethernet
Coaxial Transceiver
INPUT STEP
FUNCTION
R = 1K
RXI
C = 150 pF
78Q8392L
COLLISION
DETECTOR
RC NETWORK
SIMULATES WORST CASE
CABLE STEP RESPONSE
VCD (MAX)
VCD (MIN)
RXI
tCOFF
tCON
CD±
1
tCP
fCD
FIGURE 5: Collision Timing
TX±
tHON
tHW
CD±
FIGURE 6: Heartbeat Timing
TX±
tJA
tJR
TXO
CD±
FIGURE 7: Jabber Timing
9
CD±
OUTPUT
78Q8392L
Low Power Ethernet
Coaxial Transceiver
R = 1K
INPUT SIGNAL WITH
30 NSEC RISE AND
FALL TIMES
RXI
78Q8392L
RECEIVER
C = 36 pF
RC NETWORK SIMULATES
WORST CASE CABLE JITTER
±tRJ
Input jitter <= ±1 nsec
RX± Output jitter <= ± 7 nsec
Difference <= ± 6 nsec
FIGURE 8: Receive Jitter Timing
TRANSMIT
OUTPUT
(TXO)
25Ω
FIGURE 9: Test Loads TXO
10
RX±
OUTPUT
78Q8392L
Low Power Ethernet
Coaxial Transceiver
1:1
TX+
39Ω ±1%
10 MHz
VTS
78Q8392L
39Ω ±1%
TX-
GND
FIGURE 10: Test Circuit for TX± Input
11
78Q8392L
Low Power Ethernet
Coaxial Transceiver
PACKAGE PIN DESIGNATIONS
CAUTION: Use handling procedures necessary
for a static sensitive component.
CD-
2
15
TXO
RX+
3
14
RXI
N/C
RXI
2
1
28
27
26
25
VEE
VEE
6
24
VEE
VEE
7
23
VEE
78Q8392L
22
VEE
5
12
RR-
VEE
9
21
VEE
RX-
6
11
RR+
VEE
10
20
VEE
TX+
7
10
GND
VEE
11
19
RR-
TX-
8
9
HBE
16-Pin DIP
12
13
14
15
16
17
18
RR+
8
GND
VEE
GND
VEE
HBE
13
78Q8392L
TX-
VEE
3
5
TX+
4
4
VEE
RX-
VEE
TXO
CDS
CDS
16
CD+
1
CD-
CD+
RX+
(Top View)
28-Pin PLCC
ORDERING INFORMATION
PART DESCRIPTION
ORDER NUMBER
PACKAGE MARK
78Q8392L
16-Pin Plastic DIP
78Q8392L-CP
78Q8392L-CP
78Q8392L
28-Pin Plastic PLCC
78Q8392L-28CH
78Q8392L-28CH
No responsibility is assumed by TDK Semiconductor Corporation for use of this product nor for any infringements of patents and trademarks
or other rights of third parties resulting from its use. No license is granted under any patents, patent rights or trademarks of TDK
Semiconductor Corporation and the company reserves the right to make changes in specifications at any time without notice. Accordingly,
the reader is cautioned to verify that you are referencing the most current data sheet before placing orders. To do so, see our web site at
http://www.tsc.tdk.com or contact your local TDK Semiconductor representative.
TDK Semiconductor Corp., 2642 Michelle Dr., Tustin, CA 92780, (714) 508-8800, FAX (714) 508-8877, http://www.tsc.tdk.com
TDK Semiconductor Corporation
02/03/98 - rev.B
12