NSC DS90LV804TSQX

DS90LV804
4-Channel 800 Mbps LVDS Buffer/Repeater
General Description
Features
The DS90LV804 is a four channel 800 Mbps LVDS buffer/
repeater. In many large systems, signals are distributed
across cables and signal integrity is highly dependent on the
data rate, cable type, length, and the termination scheme. In
order to maximize signal integrity, the DS90LV804 features
both an internal input and output (source) termination to
eliminate these extra components from the board, and to
also place the terminations as close as possible to receiver
inputs and driver output. This is especially significant when
driving longer cables.
The DS90LV804, available in the LLP (Leadless Leadframe
Package) package, minimizes the footprint, and improves
system performance.
An output enable pin is provided, which allows the user to
place the LVDS outputs and internal biasing generators in a
TRI-STATE, low power mode.
n
n
n
n
n
n
n
n
n
n
800 Mbps data rate per channel
Low output skew and jitter
Hot plug protection
LVDS/CML/LVPECL compatible input, LVDS output
On-chip 100Ω input and output termination
15 kV ESD protection on LVDS Inputs and Outputs
Single 3.3V supply
Very low power consumption
Industrial -40 to +85˚C temperature range
Small LLP Package Footprint
The differential inputs interface to LVDS, and Bus LVDS
signals such as those on National’s 10-, 16-, and 18- bit Bus
LVDS SerDes, as well as CML and LVPECL. The differential
inputs are internally terminated with a 100Ω resistor to improve performance and minimize board space. This function
function is especially useful for boosting signals over lossy
cables or point-to-point backplane configurations.
Block and Connection Diagrams
20156702
DS90LV804 LLP Pinout
(Top View)
20156701
DS90LV804 Block Diagram
© 2006 National Semiconductor Corporation
DS201567
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DS90LV804 4-Channel 800 Mbps LVDS Buffer/Repeater
January 2006
DS90LV804
Pin Descriptions
Pin
Name
LLP Pin
Number
I/O, Type
Description
DIFFERENTIAL INPUTS
IN0+
IN0−
9
10
I, LVDS
Channel 0 inverting and non-inverting differential inputs.
IN1+
IN1−
11
12
I, LVDS
Channel 1 inverting and non-inverting differential inputs.
IN2+
IN2−
13
14
I, LVDS
Channel 2 inverting and non-inverting differential inputs.
IN3+
IN3−
15
16
I, LVDS
Channel 3 inverting and non-inverting differential inputs.
DIFFERENTIAL OUTPUTS
OUT0+
OUT0−
32
31
O, LVDS
Channel 0 inverting and non-inverting differential outputs. (Note 2)
OUT1+
OUT1−
30
29
O, LVDS
Channel 1 inverting and non-inverting differential outputs. (Note 2)
OUT2+
OUT2−
28
27
O, LVDS
Channel 2 inverting and non-inverting differential outputs. (Note 2)
OUT3+
OUT3-
26
25
O, LVDS
Channel 3 inverting and non-inverting differential outputs. (Note 2)
DIGITAL CONTROL INTERFACE
EN
8
I, LVTTL
Enable pin. When EN is LOW, the driver is disabled and the LVDS outputs are in
TRI-STATE. When EN is HIGH, the driver is enabled. LVCMOS/LVTTL level input.
VDD
3, 4, 6, 7, 19, 20,
21, 22
I, Power
VDD = 3.3V, ± 5%
GND
1, 2, 5, 17, 18
(Note 1)
I, Power
Ground reference for LVDS and CMOS circuitry. For the LLP package, the DAP is
used as the primary GND connection to the device. The DAP is the exposed metal
contact at the bottom of the LLP-32 package. It should be connected to the ground
plane with at least 4 vias for optimal AC and thermal performance. The pin numbers
listed should also be tied to ground for proper biasing.
N/C
23, 24
POWER
No Connect
Note 1: Note that for the LLP package the GND is connected thru the DAP on the back side of the LLP package in addition to grounding actual pins on the package
as listed.
Note 2: The LVDS outputs do not support a multidrop (BLVDS) environment. The LVDS output characteristics of the DS90LV804 device have been optimized for
point-to-point backplane and cable applications.
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2
Supply Voltage (VDD)
Charged Device Model
1000V
−0.3V to +4.0V
CMOS Input Voltage (EN)
−0.3V to (VDD+0.3V)
LVDS Receiver Input Voltage
−0.3V to (VDD+0.3V)
LVDS Driver Output Voltage
−0.3V to (VDD+0.3V)
LVDS Output Short Circuit Current
+90 mA
Junction Temperature
+150˚C
Storage Temperature
−65˚C to +150˚C
Lead Temperature (Solder, 4sec)
260˚C
Max Pkg Power Capacity @ 25˚C
4.16W
Thermal Resistance (θJA)
Recommended Operating
Conditions
Supply Voltage (VCC)
−40˚C to +85˚C
Note 3: Absolute maximum ratings are those values beyond which damage
to the device may occur. The databook specifications should be met, without
exception, to ensure that the system design is reliable over its power supply,
temperature, and output/input loading variables. National does not recommend operation of products outside of recommended operation conditions.
15 kV
EIAJ, 0Ω, 200pF
0V to VDD
Industrial
33.3mW/˚C
ESD Last Passing Voltage
HBM, 1.5kΩ, 100pF
0V to VDD
Output Voltage (VO)
Operating Temperature (TA)
30˚C/W
Package Derating above +25˚C
3.15V to 3.45V
Input Voltage (VI) (Note 4)
Note 4: VID max < 2.4V
250V
Electrical Characteristics
Over recommended operating supply and temperature ranges unless other specified.
Symbol
Parameter
Conditions
Min
Typ
(Note 5)
Max
Units
LVTTL DC SPECIFICATIONS (EN)
VIH
High Level Input Voltage
2.0
VDD
V
VIL
Low Level Input Voltage
GND
0.8
V
IIH
High Level Input Current
VIN = VDD = VDDMAX
−10
+10
µA
IIL
Low Level Input Current
VIN = VSS, VDD = VDDMAX
−10
+10
µA
CIN1
Input Capacitance
Any Digital Input Pin to VSS
VCL
Input Clamp Voltage
ICL = −18 mA
−1.5
3.5
pF
−0.8
V
LVDS INPUT DC SPECIFICATIONS (INn ± )
VTH
Differential Input High
Threshold (Note 6)
VCM = 0.8V to 3.4V,
VDD = 3.45V
VTL
Differential Input Low
Threshold (Note 6)
VCM = 0.8V to 3.4V,
VDD = 3.45V
VCM = 0.8V to 3.4V, VDD = 3.45V
0
−100
100
0
mV
mV
VID
Differential Input Voltage
VCMR
Common Mode Voltage Range VID = 150 mV, VDD = 3.45V
CIN2
Input Capacitance
IN+ or IN− to VSS
IIN
Input Current
VIN = 3.45V, VDD = VDDMAX
−10
+10
µA
VIN = 0V, VDD = VDDMAX
−10
+10
µA
100
2400
0.05
3.40
3.5
3
mV
V
pF
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DS90LV804
Absolute Maximum Ratings (Note 3)
DS90LV804
Electrical Characteristics
(Continued)
Over recommended operating supply and temperature ranges unless other specified.
Symbol
Conditions
Min
Typ
(Note 5)
Max
Units
RL = 100Ω external resistor between OUT+ and
OUT−
250
500
600
mV
35
mV
1.475
V
35
mV
−90
mA
Parameter
LVDS OUTPUT DC SPECIFICATIONS (OUTn ± )
VOD
Differential Output Voltage
(Note 6)
∆VOD
Change in VOD between
Complementary States
−35
VOS
Offset Voltage (Note 7)
1.05
∆VOS
Change in VOS between
Complementary States
1.18
−35
IOS
Output Short Circuit Current
OUT+ or OUT− Short to GND
−60
COUT2
Output Capacitance
OUT+ or OUT− to GND when TRI-STATE
5.5
All inputs and outputs enabled and active,
terminated with external differential load of 100Ω
between OUT+ and OUT-.
117
140
mA
EN = 0V
2.7
6
mA
210
300
ps
210
300
ps
2.0
3.2
ns
2.0
3.2
ns
pF
SUPPLY CURRENT (Static)
ICC
ICCZ
Total Supply Current
TRI-STATE Supply Current
SWITCHING CHARACTERISTICS — LVDS OUTPUTS
tLHT
Differential Low to High
Transition Time
tHLT
Differential High to Low
Transition Time
tPLHD
Differential Low to High
Propagation Delay
tPHLD
Differential High to Low
Propagation Delay
tSKD1
Pulse Skew
|tPLHD–tPHLD|
25
80
ps
tSKCC
Output Channel to Channel
Skew
Difference in propagation delay (tPLHD or tPHLD)
among all output channels.
50
125
ps
tJIT
Jitter
(Note 8)
RJ - Alternating 1 and 0 at 400 MHz (Note 9)
1.1
1.5
psrms
DJ - K28.5 Pattern, 800 Mbps (Note 10)
15
35
psp-p
TJ - PRBS 223-1 Pattern, 800 Mbps (Note 11)
30
55
psp-p
Use an alternating 1 and 0 pattern at 200 Mbps,
measure between 20% and 80% of VOD.
Use an alternating 1 and 0 pattern at 200 Mbps,
measure at 50% VOD between input to output.
tON
LVDS Output Enable Time
Time from EN to OUT ± change from
TRI-STATE to active.
300
ns
tOFF
LVDS Output Disable Time
Time from EN to OUT ± change from active to
TRI-STATE.
12
ns
Note 5: Typical parameters are measured at VDD = 3.3V, TA = 25˚C. They are for reference purposes, and are not production-tested.
Note 6: Differential output voltage VOD is defined as ABS(OUT+–OUT−). Differential input voltage VID is defined as ABS(IN+–IN−).
Note 7: Output offset voltage VOS is defined as the average of the LVDS single-ended output voltages at logic high and logic low states.
Note 8: Jitter is not production tested, but guaranteed through characterization on a sample basis.
Note 9: Random Jitter, or RJ, is measured RMS with a histogram including 1500 histogram window hits. The input voltage = VID = 500mV, 50% duty cycle at 400
MHz, tr = tf = 50ps (20% to 80%).
Note 10: Deterministic Jitter, or DJ, is measured to a histogram mean with a sample size of 350 hits. The input voltage = VID = 500mV, K28.5 pattern at 800 Mbps,
tr = tf = 50ps (20% to 80%). The K28.5 pattern is repeating bit streams of (0011111010 1100000101).
Note 11: Total Jitter, or TJ, is measured peak to peak with a histogram including 3500 window hits. Stimulus and fixture Jitter has been subtracted. The input voltage
= VID = 500mV, 223-1 PRBS pattern at 800 Mbps, tr = tf = 50ps (20% to 80%).
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4
INTERNAL TERMINATIONS
The DS90LV804 has integrated termination resistors on both
the input and outputs. The inputs have a 100Ω resistor
across the differential pair, placing the receiver termination
as close as possible to the input stage of the device. The
LVDS outputs also contain an integrated 100Ω ohm termination resistor, this resistor is used to reduce the effects of
Near End Crosstalk (NEXT) and does not take the place of
the 100 ohm termination at the inputs to the receiving device.
The integrated terminations improve signal integrity and decrease the external component count resulting in space
savings.
OUTPUT CHARACTERISTICS
The output characteristics of the DS90LV804 have been
optimized for point-to-point backplane and cable applications, and are not intended for multipoint or multidrop signaling.
20156741
Dynamic power supply current was measured while running a clock or
PRBS 223-1 pattern with all 4 channels active. VCC = 3.3V, TA = +25˚C,
VID = 0.5V, VCM = 1.2V
TRI-STATE MODE
The EN input activates a hardware TRI-STATE mode. When
the TRI-STATE mode is active (EN=L), all input and output
buffers and internal bias circuitry are powered off and disabled. Outputs are tri-stated in TRI-STATE mode. When
exiting TRI-STATE mode, there is a delay associated with
turning on bandgap references and input/output buffer circuits as indicated in the LVDS Output Switching Characteristics
Power Supply Current vs. Bit Data Rate
Packaging Information
The Leadless Leadframe Package (LLP) is a leadframe
based chip scale package (CSP) that may enhance chip
speed, reduce thermal impedance, and reduce the printed
circuit board area required for mounting. The small size and
very low profile make this package ideal for high density
PCBs used in small-scale electronic applications such as
cellular phones, pagers, and handheld PDAs. The LLP package is offered in the no Pullback configuration. In the no
Pullback configuration the standard solder pads extend and
terminate at the edge of the package. This feature offers a
visible solder fillet after board mounting.
The LLP has the following advantages:
• Low thermal resistance
• Reduced electrical parasitics
INPUT FAILSAFE BIASING
External pull up and pull down resistors may be used to
provide enough of an offset to enable an input failsafe under
open-circuit conditions. This configuration ties the positive
LVDS input pin to VDD thru a pull up resistor and the negative
LVDS input pin is tied to GND by a pull down resistor. The
pull up and pull down resistors should be in the 5kΩ to 15kΩ
range to minimize loading and waveform distortion to the
driver. The common-mode bias point ideally should be set to
approximately 1.2V (less than 1.75V) to be compatible with
the internal circuitry. Please refer to application note AN1194 “Failsafe Biasing of LVDS Interfaces” for more information.
• Improved board space efficiency
• Reduced package height
• Reduced package mass
For more details about LLP packaging technology, refer to
applications note AN-1187, "Leadless Leadframe Package"
5
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DS90LV804
TYPICAL PERFORMANCE CHARACTERISTICS
Feature Descriptions
DS90LV804 4-Channel 800 Mbps LVDS Buffer/Repeater
Physical Dimensions
inches (millimeters) unless otherwise noted
32-LLP, Plastic, Quad
Order Number DS90LV804TSQ (1000 piece Tape and Reel)
DS90LV804TSQX (4500 piece Tape and Reel)
NS Package Number SQA32A
National does not assume any responsibility for use of any circuitry described, no circuit patent licenses are implied and National reserves
the right at any time without notice to change said circuitry and specifications.
For the most current product information visit us at www.national.com.
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