DALLAS DS2290

DS2290
DS2290
T1 Isolation Stik
FEATURES
PIN ASSIGNMENT
• Protected interface for connecting equipment to T1
of isolation
• FCC Part 68 registered
• Meets TR 62411 and T1.403–1989 for transmit pulse
characteristics
• Line build outs of 0, –7.5, and –15 dB
• Companion to the DS2291 T1 Long Loop Stik
• Connects to a standard 30–pin single in–line connector
• Single +5V supply
• Compatible
with the DS2180A and DS2141A T1
Tranceivers
VDD
VDD
LCLK
LPOS
LNEG
TCLK
TPOS
TNEG
LB
NC
LB2
LB1
LB0
TAIS
B8ZS
NC
NC
NC
RX+
RX–
NC
GND
GND
NC
RXTIP
LPWR+
RXRING
TXTIP
LPWR–
TXRING
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
ISOLTATION/
SURGE
PROTECTION
• Provides 800 volts of surge protection and 1500 volts
TRANSMIT
WAVE–
SHAPING
lines
(ACTUAL SIZE)
DESCRIPTION
The DS2290 T1 Isolation Stik provides all the surge and
isolation protection that is necessary to connect a piece
of equipment to a T1 line. It offers a function similar to
that provided by a Data Access Arrangement (DAA)
when a modem is connected to a phone line. The
DS2290 is FCC Part 68 pre–registered so the user can
connect equipment to T1 lines without any further testing or qualification. It contains onboard waveshaping
circuitry that creates transmit pulses meeting the latest
T1 specifications including TR 62411 (Accunet* T1.5
Service Description and Interface Specifications, – December 1990) and T1.403–1989 (Carrier to Carrier Installation – DS1 Metallic Interface). Applications include Channel Service Units and similar equipment that
requires a fully protected interface.
* Service mark of AT&T Communications
022798 1/9
DS2290
OVERVIEW
The DS2290 contains all the isolation and surge protection required to connect equipment to T1 lines. The Isolation Stik has a receive and a transmit section. (See
Figure 1.) In the receive section, inputs RXTIP and
RXRING are connected directly to the receive T1
twisted pair. These inputs are terminated at 100 ohms.
The T1 signal received at RXTIP and RXRING is
coupled through a 2:1 transformer and presented at the
RX+ and RX– outputs. See Figure 2. There is a full
1500 volts of isolation between the Network Side pins
and the Customer Side pins.
In the transmit section, data that is to be transmitted is
sourced from either the TPOS and TNEG inputs or the
LPOS and LNEG inputs. The Data Mux will transmit
data at the TCLK rate from the TPOS and TNEG inputs if
the LB pin is either tied low or left open. It will transmit
data at the LCLK rate from the LPOS and LNEG inputs if
the LB pin is tied high. In order to comply with the latest
T1 standards, the clock presented at either TCLK or
LCLK must be at a 1.544 MHz rate (±32 ppm) and must
not jitter beyond 0.05 unit intervals peak–to–peak
(UIpp). TPOS and TNEG can be tied together if the
source of the transmit data is in a NRZ format. The
DS2290 will automatically sense that these inputs are
tied together and will create a bipolar data stream from
them. The same holds true for the LPOS and LNEG inputs.
Data out of the Data Mux is passed to a B8ZS encoder
and AIS generator. If the B8ZS pin is tied high, then the
DS2290 will properly encode the transmit data stream
for the B8ZS zero code suppression scheme. If the
B8ZS pin is tied low or left open, the DS2290 will not encode the transmit data for B8ZS. Also, the DS2290 can
be configured to transmit an AIS (Alarm Indication Sig-
022798 2/9
nal). If the TAIS pin is tied high, the DS2290 will transmit
an unframed, all ones signal at either the TCLK (LB=0 )
or LCLK (LB=1) rate.
The data to be transmitted is fed to the line driver. The
line driver creates the T1 pulse that will be transmitted.
The line build out pins LB0 to LB2 select whether the
output pulse level will be 0, –7.5, or –15 dB (see Table
3). If 0 dB of build out is selected, the output pulse will
conform to the shape described in Figure 2. This pulse
shape is congruent with the latest T1 specifications
such as TR 62411 and T1.403–1989. If the –7.5 dB or
–15 dB line build outs are selected, then the pulse
shown in Figure 3 will be attenuated according to the
transfer function as described in FCC Part 68, Subpart
D. Once the T1 pulse has been created, it is then transmitted onto the transmit T1 twisted pair via the TTIP and
TRING outputs.
The DS2290 contains provisions for line powering. If
the DS2290 is to be powered from the T1 line using a DC
simplex power arrangement, then an external DC–to–
DC converter can connected to the LPWR+ and LPWR–
pins. Requirements for line powering are currently being relaxed and will be totally removed in the future. If
the DS2290 is not line powered, the LPWR+ and
LPWR– pins should be tied together.
Figure 4 shows a typical application using the DS2290.
The transmit and receive T1 twisted pairs are connected
directly to the DS2290. The DS2291 T1 Long Loop Stik
recovers clock and data from the protected signal provided by the Isolation Stik. The DS2180A T1 Transceiver frames to the recovered data and interfaces to the
system backplane. The DS2250 Soft Microcontroller
Stik is used to control and monitor the status of the other
devices.
TXRING(30)
TXTIP(28)
LPWR–(29)
LPWR+(26)
RXRING(27)
RXTIP(25)
NETWORK
SIDE PINS
P
R
O
T
E
C
T
I
O
N
P
R
O
T
E
C
T
I
O
N
I
S
O
L
A
T
I
O
N
I
S
O
L
A
T
I
O
N
1500 VOLT
ISOLATION
1500 VOLT
ISOLATION
LINE
DRIVER
T
E
R
M
I
N
A
T
I
O
N
TRANSMIT SECTION
B8ZS ENCODER
AND
AIS GENERATOR
RECEIVE SECTION
DATA
MUX
VDD(1,2)
GND(22,23)
TNEG(8)
TPOS(7)
TCLK(6)
LNEG(5)
LPOS(4)
LCLK(3)
LB(9)
B8ZS(15)
TAIS(14)
RX–(20)
RX+(19)
CUSTOMER
SIDE PINS
DS2290
DS2290 BLOCK DIAGRAM Figure 1
PD
PD
PD
PD
PD
PD
PD
PU
LB2(11)
PU
LB1(12)
LB0(13)
022798 3/9
DS2290
DS2290 RECEIVE SECTION CIRCUITRY Figure 2
5 OHM
RXTIP
RX+
23 OHMS
5 OHM
RXRING
RX–
2:1
OUTPUT PULSE TEMPLATE Figure 3
1.2
1.1
1.0
0.9
0.8
NORMALIZED AMPLITUDE
0.7
0.6
0.5
0.4
0.3
0.2
0.1
–0.0
–0.1
–0.2
–0.3
–0.4
–0.5
–0.6
–500
–400
–300
–200
–100
0
100
TIME (ns)
022798 4/9
200
300
400
500
600
700
DS2290
TYPICAL DS2290 APPLICATION Figure 4
LCLK
LPOS
LNEG
LB2
B8ZS
BPV
PCS
DJA
RST
LCLK
LNEG
LPOS
RCLK
RPOS
RNEG
RCLK
RPOS
RNEG
RSER
DS2180A
T1 TRANSCEIVER
B8ZS
RX+
RX–
DS2291
T1 LONG LOOP Stik
DS2290
T1 ISOLATION Stik
RX+
RX–
LOCK RCLLB
TSER
RECEIVE
T1 PAIR
RXTIP
RXRING
LPWR–
LPWR+
TRANSMIT
T1 PAIR
TPOS
TNEG
TCLK
TPOS
TNEG
TCLK
SERIAL
PORT
LB0
LB1
TAIS
LB
TXTIP
TXRING
DS2250
SOFT MICROCONTROLLER Stik
NETWORK SIDE PIN DESCRIPTION Table 1
PIN
SYMBOL
I/O
DESCRIPTION
25
27
RXTIP
RXRING
I
Receive Tip and Ring Inputs. Connects directly to the receive T1 twisted pair.
These inputs are transformer coupled and terminated at 100 ohms. See Figure
2.
28
30
TXTIP
TXRING
O
Transmit Tip and Ring Outputs. Connects directly to the transmit T1 twisted
pair. Output signal level is programmable via the LB0 to LB2 pins. (See Table 3.)
26
29
LPWR+
LPWR–
–
Loop Power Connections. These pins connect to the internal center–taps of
the transmit and receive transformers. They provide access to the DC power
on the T1 line (may not be provided by carriers in the future). Tie together if no
simplex power arrangement is needed.
022798 5/9
DS2290
CUSTOMER SIDE PIN DESCRIPTION Table 2
PIN
SYMBOL
I/O
DESCRIPTION
1,2
VDD
–
Positive Supply. 5.0 Volts.
3
LCLK
I
Loopback Clock. Clock for loopback data. Internally pulled low by 100KΩ.
4
5
LPOS
LNEG
I
Loopback Bipolar Data. Sampled on the falling edge of LCLK if LB is tied
high. Internally pulled low by 100KΩ.
6
TCLK
I
Transmit Clock. Apply a 1.544 MHz (±32 ppm) clock here.
7
8
TPOS
TNEG
I
Transmit Bipolar Data. Data that is to be transmitted. Sampled on the falling
edge of TCLK when LB is tied low or left open. TPOS and TNEG can be tied
together for an NRZ data input.
9
LB
I
Loopback Enable. Tie high to transmit data from LPOS and LNEG; tie low or
leave open to transmit data from TPOS and TNEG. Internally pulled low by
100K ohm.
11
12
13
LB2
LB1
LB0
I
Line Build Out Select. State determines whether the transmitted signal has
0, –7.5, or –15 dB of line build out. See Table 3. LB0 and LB1 are internally
pulled high by 100KΩ; LB2 is pulled low by 100KΩ. If all three build out pins
are left open, the default state is 0 dB.
14
TAIS
I
Transmit Alarm Indication Signal. Tie high to transmit an unframed all ones
signal at either the TCLK (LB=0) or LCLK (LB=1) rate. Internally pulled low by
100KΩ.
15
B8ZS
I
B8ZS Enable. Tie high to enable B8ZS encoding; tie low or leave open to
disable B8ZS encoding. Internally pulled low by 100KΩ.
19
20
RX+
RX–
O
Receive Analog Output. Protected differential T1 signal output here.
22,23
GND
–
Ground. 0.0 volts.
NOTE: Do not connect any signal to pins 10, 16, 17, 18, 21, and 24.
LINE BUILD OUT SELECTS Table 3
LINE BUILD OUT SELECTS
LB0
LB1
LB2
0 dB
1
1
0
–7.5 dB
1
0
0
–15 dB
0
1
0
SINGLE IN–LINE CONNECTOR
The DS2290 is designed to connect directly into a
30–position single in–line connector. These connectors
are available from a number of vendors.
022798 6/9
DS2290
ABSOLUTE MAXIMUM RATINGS*
Voltage on any Pin Relative to Ground
(Customer Side pins only)
Operating Temperature
Storage Temperature
–0.3V to VCC + 0.3V
0°C to 70°C
–55°C to +125°C
* This is a stress rating only and functional operation of the device at these or any other conditions above
those indicated in the operation sections of this specification is not implied. Exposure to absolute maximum rating conditions for extended periods of time may affect reliability.
RECOMMENDED DC OPERATING CONDITIONS
PARAMETER
SYMBOL
MIN
Logic 1
VIH
Logic 0
Supply
(0°C to 70°C)
TYP
MAX
UNITS
NOTES
2.0
VCC+0.3
V
3
VIL
–0.3
+0.8
V
3
VDD
4.75
5.25
V
SYMBOL
MIN
MAX
UNITS
NOTES
CAPACITANCE
PARAMETER
(tA=25°C)
TYP
Output Capacitance
CIN
30
pF
3
Output Capacitance
COUT
50
pF
3
(0°C to 70°C; VDD=5V ± 5%)
DC ELECTRICAL CHARACTERISTICS
PARAMETER
SYMBOL
MIN
TYP
MAX
UNITS
NOTES
Supply Current
IDD
60
80
mA
1
Input Leakage
II
–100
+100
µA
2,3
Output Current (2.4V)
IOH
–1.0
mA
3
Output Current (0.4V)
IOL
+4.0
mA
3
NOTES:
1. TCLK = 1.544 MHz; VDD = 5.25V; outputs open; driving all ones into 6000 feet of 22 AWG.
2. VSS < VIN < VDD.
3. Does not apply to any of the network side pins nor RX+ or RX–.
022798 7/9
DS2290
(0°C to 70°C; VDD=5V ± 5%)
ANALOG ELECTRICAL CHARACTERISTICS
PARAMETER
Input Impedance at RXTIP and
RXRING at 772 KHz
Transmit Jitter Generation
SYMBOL
MIN
TYP
MAX
UNITS
NOTES
IZ
95
100
105
ohms
1
0.03
UIpp
2
JGEN
Transmit Pulse Amplitude
3.0
3.5
Vpk
3,4,5
Pulse Width Balance @ 50%
PWBAL
PAMP
2.5
1
10
ns
3,6
Pulse Amplitude Balance
PABAL
10
100
mV
3,6
Power Level at 772 KHz
PLVL
19
dBm
7
12
NOTES:
1. RX+ and RX– left open circuited.
2. Jitter present at TXTIP and TXRING with no jitter at TCLK (LB=0) or LCLK (LB=1).
3. Measured with 100 ohm (±5%) termination at TXTIP and TXRING.
4. Measured directly at TXTIP and TXRING with 0 dB of line build out.
5. Pulse shape meets template in Figure 3 over temperature and voltage.
6. Measured over 17 consecutive pulses.
7. Measured in a 2 KHz to 3 KHz band about 772 KHz; power level in a 2 to 3 KHz band at 1.544 MHz is at least
25 dB lower.
(0°C to 70°C; VDD=5V ± 5%)
DIGITAL ELECTRICAL CHARACTERISTICS
PARAMETER
SYMBOL
MIN
TYP
MAX
UNITS
NOTES
±32
ppm
1
TCLK Period
tP
TPOS, TNEG or LPOS, LNEG
Setup Time to TCLK or LCLK
Falling
tSD
50
ns
TPOS, TNEG or LPOS, LNEG
Hold Time from TCLK or LCLK
Falling
tHD
50
ns
NOTE:
1. Necessary to meet current carrier and FCC specifications.
tP
AC TIMING DIAGRAM Figure 5
TCLK
LCLK
tSD
TPOS, TNEG
LPOS, LNEG
022798 8/9
tHD
DS2290
DS2290 T1 ISOLATION Stik
P
SIDE B
O
N
SIDE A
A
B
J
C
D
E
G
H
I
F
PKG
30-PIN
DIM
MIN
MAX
A IN.
3.455
3.505
B IN.
3.229
3.239
C IN.
0.845
0.855
D IN.
0.395
0.405
E IN.
0.245
0.255
F IN.
0.100 BSC
G IN.
0.075
0.085
H IN.
0.295
0.305
I IN.
J IN.
2.900 BSC
0.120
0.130
N IN.
0.235
O IN.
0.100
P IN.
0.054
022798 9/9