NSC DS90C365MTD

DS90C385/DS90C365
+3.3V Programmable LVDS Transmitter 24-Bit Flat Panel
Display (FPD) Link-85 MHz, +3.3V Programmable LVDS
Transmitter 18-Bit Flat Panel Display (FPD) Link-85 MHz
General Description
The DS90C385 transmitter converts 28 bits of LVCMOS/
LVTTL data into four LVDS (Low Voltage Differential Signaling) data streams. A phase-locked transmit clock is transmitted in parallel with the data streams over a fifth LVDS link.
Every cycle of the transmit clock 28 bits of input data are
sampled and transmitted. At a transmit clock frequency of 85
MHz, 24 bits of RGB data and 3 bits of LCD timing and
control data (FPLINE, FPFRAME, DRDY) are transmitted at
a rate of 595 Mbps per LVDS data channel. Using a 85 MHz
clock, the data throughput is 297.5 Mbytes/sec. Also available is the DS90C365 that converts 21 bits of LVCMOS/
LVTTL data into three LVDS (Low Voltage Differential Signaling) data streams. Both transmitters can be programmed
for Rising edge strobe or Falling edge strobe through a
dedicated pin. A Rising edge or Falling edge strobe transmitter will interoperate with a Falling edge strobe Receiver
(DS90CF386/DS90CF366) without any translation logic.
The DS90C385 is also offered in a 64 ball, 0.8mm fine pitch
ball grid array (FBGA) package which provides a 44 %
reduction in PCB footprint compared to the TSSOP package.
This chipset is an ideal means to solve EMI and cable size
problems associated with wide, high-speed TTL interfaces.
Features
n 20 to 85 MHz shift clock support
n Best–in–Class Set & Hold Times on TxINPUTs
n Tx power consumption < 130 mW (typ) @85MHz
Grayscale
n Tx Power-down mode < 200µW (max)
n Supports VGA, SVGA, XGA and Dual Pixel SXGA.
n Narrow bus reduces cable size and cost
n Up to 2.38 Gbps throughput
n Up to 297.5 Megabytes/sec bandwidth
n 345 mV (typ) swing LVDS devices for low EMI
n PLL requires no external components
n Compatible with TIA/EIA-644 LVDS standard
n Low profile 56-lead or 48-lead TSSOP package
n DS90C385 also available in a 64 ball, 0.8mm fine pitch
ball grid array (FBGA) package
Block Diagrams
DS90C365
DS90C385
10086829
10086801
Order Number DS90C385MTD or DS90C385SLC
See NS Package Number MTD56 or SLC64A
Order Number DS90C365MTD
See NS Package Number MTD48
TRI-STATE ® is a registered trademark of National Semiconductor Corporation.
© 2003 National Semiconductor Corporation
DS100868
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DS90C385/DS90C365 +3.3V Programmable LVDS Transmitter 24-Bit Flat Panel Display (FPD)
Link-85 MHz, +3.3V Programmable LVDS Transmitter 18-Bit Flat Panel Display (FPD) Link-85 MHz
May 2003
DS90C385/DS90C365
Absolute Maximum Ratings
DS90C385SLC
(Note 1)
Package Derating:
DS90C385MTD
If Military/Aerospace specified devices are required,
please contact the National Semiconductor Sales Office/
Distributors for availability and specifications.
Supply Voltage (VCC)
−0.5V to (VCC + 0.3V)
LVDS Driver Output Voltage
−0.3V to (VCC + 0.3V)
12.5 mW/˚C above +25˚C
Package Derating:
DS90C365MTD
−0.3V to +4V
CMOS/TTL Input Voltage
2.0 W
16 mW/˚C above +25˚C
DS90C385SLC
10.2 mW/˚C above +25˚C
ESD Rating
> 7 kV
> 500V
(HBM, 1.5kΩ, 100pF)
LVDS Output Short Circuit
Duration
Continuous
Junction Temperature
+150˚C
Storage Temperature
−65˚C to +150˚C
Lead Temperature
(Soldering, 4 sec)
(EIAJ, 0Ω, 200 pF)
Recommended Operating
Conditions
+260˚C
Solder reflow Temperature
(20 sec for FBGA)
> ± 300mA
Latch Up Tolerance @ 25˚C
Min Nom Max Units
+220˚C
Maximum Package Power Dissipation Capacity @ 25˚C
Supply Voltage (VCC)
MTD56 (TSSOP) Package:
DS90C385MTD
Operating Free Air
3.0
Temperature (TA)
1.63 W
3.3
3.6
V
−10 +25 +70
˚C
Supply Noise Voltage (VCC)
MTD48 (TSSOP) Package:
DS90C365MTD
1.98 W
TxCLKIN frequency
100 mVPP
20
85
MHz
SLC64 (FBGA) Package:
Electrical Characteristics
Over recommended operating supply and temperature ranges unless otherwise specified.
Symbol
Parameter
Conditions
Min
Typ
Max
Units
VCC
V
0.8
V
LVCMOS/LVTTL DC SPECIFICATIONS
VIH
High Level Input Voltage
VIL
Low Level Input Voltage
VCL
Input Clamp Voltage
ICL = −18 mA
IIN
Input Current
VIN = 0.4V, 2.5V or VCC
2.0
GND
−0.79
−1.5
V
+1.8
+10
µA
VIN = GND
−10
0
RL = 100Ω
250
345
µA
LVDS DC SPECIFICATIONS
VOD
Differential Output Voltage
∆VOD
Change in VOD between
complimentary output states
VOS
Offset Voltage (Note 4)
∆VOS
Change in VOS between
complimentary output states
IOS
Output Short Circuit Current
IOZ
TRI-STATE ®
Output
Current
1.125
VOUT = 0V, RL = 100Ω
Power Down = 0V,
VOUT = 0V or V CC
1.25
450
mV
35
mV
1.375
V
35
mV
−3.5
−5
mA
±1
± 10
µA
TRANSMITTER SUPPLY CURRENT
ICCTW
ICCTG
Transmitter Supply Current
Worst Case
DS90C385
Transmitter Supply Current
16 Grayscale
DS90C385
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RL = 100Ω,
CL = 5 pF,
Worst Case Pattern
(Figures 1, 4 )
f = 32.5 MHz
31
45
mA
f = 40 MHz
32
50
mA
f = 65 MHz
37
55
mA
f = 85 MHz
42
60
mA
RL = 100Ω,
CL = 5 pF,
16 Grayscale Pattern
(Figures 2, 4 )
f = 32.5 MHz
29
38
mA
f = 40 MHz
30
40
mA
f = 65 MHz
35
45
mA
f = 85 MHz
39
50
mA
2
(Continued)
Over recommended operating supply and temperature ranges unless otherwise specified.
Symbol
Parameter
Conditions
Min
Typ
Max
Units
TRANSMITTER SUPPLY CURRENT
ICCTW
ICCTG
ICCTZ
Transmitter Supply Current
Worst Case
DS90C365
Transmitter Supply Current
16 Grayscale
DS90C365
Transmitter Supply Current
Power Down
RL = 100Ω,
CL = 5 pF,
Worst Case Pattern
(Figures 1, 4 )
f = 32.5 MHz
28
42
mA
f = 40 MHz
29
47
mA
f = 65 MHz
34
52
mA
f = 85 MHz
39
57
mA
RL = 100Ω,
CL = 5 pF,
16 Grayscale Pattern
(Figures 3, 4 )
f = 32.5 MHz
26
35
mA
f = 40 MHz
27
37
mA
f = 65 MHz
32
42
mA
f = 85 MHz
36
47
mA
10
55
µA
Power Down = Low
Driver Outputs in TRI-STATE under
Power Down Mode
Note 1: “Absolute Maximum Ratings” are those values beyond which the safety of the device cannot be guaranteed. They are not meant to imply that the device
should be operated at these limits. The tables of “Electrical Characteristics” specify conditions for device operation.
Note 2: Typical values are given for VCC = 3.3V and TA = +25C.
Note 3: Current into device pins is defined as positive. Current out of device pins is defined as negative. Voltages are referenced to ground unless otherwise
specified (except VOD and ∆VOD).
Note 4: VOS previously referred as VCM.
Recommended Transmitter Input Characteristics
Over recommended operating supply and temperature ranges unless otherwise specified
Symbol
Parameter
Min
Typ
Max
Units
6.0
ns
T
50
ns
0.5T
0.65T
ns
TCIT
TxCLK IN Transition Time (Figure 6)
1.0
TCIP
TxCLK IN Period (Figure 7)
11.76
TCIH
TxCLK IN High Time (Figure 7)
0.35T
TCIL
TxCLK IN Low Time (Figure 7)
0.35T
0.5T
0.65T
ns
TXIT
TxIN Transition Time
6.0
ns
Units
1.5
Transmitter Switching Characteristics
Over recommended operating supply and temperature ranges unless otherwise specified
Typ
Max
LLHT
Symbol
LVDS Low-to-High Transition Time (Figure 5)
Parameter
Min
0.75
1.5
ns
LHLT
LVDS High-to-Low Transition Time (Figure 5)
0.75
1.5
ns
TPPos0
Transmitter Output Pulse Position for Bit 0 (Figures 13, 14)
(Note 5)
−0.25
0
0.25
ns
TPPos1
Transmitter Output Pulse Position for Bit 1
3.32
3.57
3.82
ns
TPPos2
Transmitter Output Pulse Position for Bit 2
6.89
7.14
7.39
ns
TPPos3
Transmitter Output Pulse Position for Bit 3
10.46
10.71
10.96
ns
TPPos4
Transmitter Output Pulse Position for Bit 4
14.04
14.29
14.54
ns
TPPos5
Transmitter Output Pulse Position for Bit 5
17.61
17.86
18.11
ns
TPPos6
Transmitter Output Pulse Position for Bit 6
21.18
21.43
21.68
ns
TPPos0
Transmitter Output Pulse Position for Bit 0 (Figures 13, 14)
(Note 5)
−0.20
0
0.20
ns
TPPos1
Transmitter Output Pulse Position for Bit 1
2.00
2.20
2.40
ns
TPPos2
Transmitter Output Pulse Position for Bit 2
4.20
4.40
4.60
ns
TPPos3
Transmitter Output Pulse Position for Bit 3
6.39
6.59
6.79
ns
TPPos4
Transmitter Output Pulse Position for Bit 4
8.59
8.79
8.99
ns
TPPos5
Transmitter Output Pulse Position for Bit 5
10.79
10.99
11.19
ns
TPPos6
Transmitter Output Pulse Position for Bit 6
12.99
13.19
13.39
ns
3
f = 40 MHz
f = 65 MHz
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DS90C385/DS90C365
Electrical Characteristics
DS90C385/DS90C365
Transmitter Switching Characteristics
(Continued)
Over recommended operating supply and temperature ranges unless otherwise specified
Symbol
Parameter
Min
Typ
Max
Units
−0.20
0
0.20
ns
Transmitter Output Pulse Position for Bit 1
1.48
1.68
1.88
ns
Transmitter Output Pulse Position for Bit 2
3.16
3.36
3.56
ns
TPPos3
Transmitter Output Pulse Position for Bit 3
4.84
5.04
5.24
ns
TPPos4
Transmitter Output Pulse Position for Bit 4
6.52
6.72
6.92
ns
TPPos5
Transmitter Output Pulse Position for Bit 5
8.20
8.40
8.60
ns
TPPos6
Transmitter Output Pulse Position for Bit 6
9.88
10.08
10.28
ns
TSTC
TxIN Setup to TxCLK IN (Figure 7)
2.5
ns
THTC
TxIN Hold to TxCLK IN (Figure 7)
0
ns
TCCD
TxCLK IN to TxCLK OUT Delay (Figure 8)
TJCC
Transmitter Jitter Cycle-to-Cycle (Figures 15, 16) (Note 6)
TPPos0
Transmitter Output Pulse Position for Bit 0 (Figures 13, 14)
(Note 5)
TPPos1
TPPos2
f = 85 MHz
TA = 25˚C, VCC =
3.3V
TxCLK IN to TxCLK OUT Delay (Figure 8)
3.8
6.3
2.8
ns
7.1
ns
f = 85 MHz
110
150
ps
f = 65 MHz
210
230
ps
f = 40 MHz
350
370
ps
TPLLS
Transmitter Phase Lock Loop Set (Figure 9)
10
ms
TPDD
Transmitter Power Down Delay (Figure 12)
100
ns
Note 5: The Minimum and Maximum Limits are based on statistical analysis of the device performance over process, voltage, and temperature ranges. This
parameter is functionality tested only on Automatic Test Equipment (ATE).
Note 6: The limits are based on bench characterization of the device’s jitter response over the power supply voltage range. Output clock jitter is measured with a
cycle-to-cycle jitter of +/−3ns applied to the input clock signal while data inputs are switching (See Figures 15 and 16). A jitter event of 3ns, represents worse case
jump in the clock edge from most graphics controller VGA chips currently available. This parameter is used when calculating system margin as described in AN-1059.
AC Timing Diagrams
10086804
FIGURE 1. “Worst Case” Test Pattern (Note 7)
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4
DS90C385/DS90C365
AC Timing Diagrams
(Continued)
10086805
FIGURE 2. “16 Grayscale” Test Pattern - DS90C385 (Notes 8, 9, 10)
5
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DS90C385/DS90C365
AC Timing Diagrams
(Continued)
10086831
FIGURE 3. “16 Grayscale” Test Pattern - DS90C365 (Notes 8, 9, 10)
Note 7: The worst case test pattern produces a maximum toggling of digital circuits, LVDS I/O and CMOS/TTL I/O.
Note 8: The 16 grayscale test pattern tests device power consumption for a “typical” LCD display pattern. The test pattern approximates signal switching needed
to produce groups of 16 vertical stripes across the display.
Note 9: Figures 1, 2 show a falling edge data strobe (TxCLK IN/RxCLK OUT).
Note 10: Recommended pin to signal mapping. Customer may choose to define differently.
10086830
FIGURE 4. DS90C385/DS90C365 (Transmitter) LVDS Output Load
10086806
FIGURE 5. DS90C385/DS90C365 (Transmitter) LVDS Transition Times
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6
DS90C385/DS90C365
AC Timing Diagrams
(Continued)
10086808
FIGURE 6. DS90C385/DS90C365 (Transmitter) Input Clock Transition Time
10086810
FIGURE 7. DS90C385/DS90C365 (Transmitter) Setup/Hold and High/Low Times (Falling Edge Strobe)
10086812
FIGURE 8. DS90C385/DS90C365 (Transmitter) Clock In to Clock Out Delay
10086814
FIGURE 9. DS90C385/DS90C365 (Transmitter) Phase Lock Loop Set Time
7
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DS90C385/DS90C365
AC Timing Diagrams
(Continued)
10086817
FIGURE 10. 28 Parallel TTL Data Inputs Mapped to LVDS Outputs - DS90C385
10086832
FIGURE 11. 21 Parallel TTL Data Inputs Mapped to LVDS Outputs - DS90C365
10086818
FIGURE 12. Transmitter Power Down Delay
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8
DS90C385/DS90C365
AC Timing Diagrams
(Continued)
10086826
FIGURE 13. Transmitter LVDS Output Pulse Position Measurement - DS90C385
9
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DS90C385/DS90C365
AC Timing Diagrams
(Continued)
10086833
FIGURE 14. Transmitter LVDS Output Pulse Position Measurement - DS90C365
10086827
FIGURE 15. TJCC Test Setup - DS90C385 Shown
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10
DS90C385/DS90C365
AC Timing Diagrams
(Continued)
10086828
FIGURE 16. Timing Diagram of the Input cycle-to-cycle clock jitter
DS90C385 MTD56 (TSSOP) Package Pin Description —
FPD Link Transmitter
I/O
No.
TxIN
Pin Name
I
28
TTL level input. This includes: 8 Red, 8 Green, 8 Blue, and 4 control lines — FPLINE,
FPFRAME and DRDY (also referred to as HSYNC, VSYNC, Data Enable).
Description
TxOUT+
O
4
Positive LVDS differentiaI data output.
TxOUT−
O
4
Negative LVDS differential data output.
TxCLKIN
I
1
TTL Ievel clock input. Pin name TxCLK IN.
R_FB
I
1
Programmable strobe select (See Table 1).
TxCLK OUT+
O
1
Positive LVDS differential clock output.
TxCLK OUT−
O
1
Negative LVDS differential clock output.
PWR DOWN
I
1
TTL level input. Assertion (low input) TRI-STATES the outputs, ensuring low current at power
down. See Applications Information section.
VCC
I
3
Power supply pins for TTL inputs.
GND
I
4
Ground pins for TTL inputs.
PLL VCC
I
1
Power supply pin for PLL.
PLL GND
I
2
Ground pins for PLL.
LVDS VCC
I
1
Power supply pin for LVDS outputs.
LVDS GND
I
3
Ground pins for LVDS outputs.
11
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DS90C385/DS90C365
DS90C385SLC SLC64A (FBGA) Package Pin Summary —
FPD Link Transmitter
I/O
No.
TxIN
Pin Name
I
28
TTL level input.
Description
TxOUT+
O
4
Positive LVDS differential data output.
TxOUT−
O
4
Negative LVDS differential data output.
TxCLKIN
I
1
TTL IeveI clock input. The rising edge acts as data strobe. Pin name TxCLK IN.
R_FB
I
1
Programmable strobe select. HIGH = rising edge, LOW = falling edge.
TxCLK OUT+
O
1
Positive LVDS differential clock output.
TxCLK OUT−
O
1
Negative LVDS differential clock output.
PWR DOWN
I
1
TTL level input. Assertion (low input) TRI-STATES the outputs, ensuring low current at
power down. See Applications Information section.
VCC
I
3
Power supply pins for TTL inputs.
GND
I
5
Ground pins for TTL inputs.
PLL VCC
I
1
Power supply pin for PLL.
PLL GND
I
2
Ground pins for PLL.
LVDS VCC
I
2
Power supply pin for LVDS outputs.
LVDS GND
I
4
Ground pins for LVDS outputs.
6
Pins not connected.
NC
DS90C385SLC SLC64A (FBGA) Package Pin Description —
FPD Link Transmitter
By Pin
By Pin Type
Pin
Pin Name
Type
Pin
Pin Name
A1
TxIN27
I
D3
GND
Type
G
A2
TxOUT0-
O
E4
GND
G
A3
TxOUT0+
O
E8
GND
G
A4
LVDS VCC
P
G1
GND
G
A5
LVDS VCC
P
G6
GND
G
A6
TxCLKOUT-
O
B3
LVDS GND
G
A7
TxCLKOUT+
O
B4
LVDS GND
G
A8
TxOUT3+
O
B7
LVDS GND
G
B1
TxIN1
I
D5
LVDS GND
G
B2
TxIN0
I
C6
PLL GND
G
B3
LVDS GND
G
D6
PLL GND
G
B4
LVDS GND
G
D7
PWR DOWN
I
B5
TxOUT2-
O
G5
R_FB
I
B6
TxOUT3-
O
C8
TxCLKIN
I
B7
LVDS GND
G
B2
TxIN0
I
B8
NC
B1
TxIN1
I
C1
TxIN3
C2
NC
I
D2
TxIN2
I
C1
TxIN3
I
C3
NC
D1
TxIN4
I
C4
TxOUT1-
O
F1
TxIN5
I
C5
TxOUT2+
O
E2
TxIN6
I
C6
PLL GND
G
E3
TxIN7
I
C7
PLL VCC
P
G2
TxIN8
I
C8
TxCLKIN
I
H1
TxIN9
I
D1
TxIN4
I
G3
TxIN10
I
D2
TxIN2
I
H3
TxIN11
I
D3
GND
G
F4
TxIN12
I
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12
By Pin
By Pin Type
D4
TxOUT1+
O
G4
TxIN13
I
D5
LVDS GND
G
H4
TxIN14
I
D6
PLL GND
G
H5
TxIN15
I
D7
PWD DOWN
I
E5
TxIN16
I
D8
TxIN26
I
F5
TxIN17
I
E1
VCC
P
H6
TxIN18
I
E2
TxIN6
I
H7
TxIN19
I
E3
TxIN7
I
H8
TxIN20
I
E4
GND
G
G7
TxIN21
I
E5
TxIN16
I
F7
TxIN22
I
E6
VCC
P
G8
TxIN23
I
E7
TxIN24
I
E7
TxIN24
I
E8
GND
G
F8
TxIN25
I
F1
TxIN5
I
D8
TxIN26
I
F2
NC
A1
TxIN27
I
F3
NC
A6
TxCLKOUT-
O
F4
TxIN12
I
A7
TxCLKOUT+
O
F5
TxIN17
I
A2
TxOUT0-
O
F6
NC
A3
TxOUT0+
O
F7
TxIN22
I
C4
TxOUT1-
O
F8
TxIN25
I
D4
TxOUT1+
O
G1
GND
G
B5
TxOUT2-
O
O
G2
TxIN8
I
C5
TxOUT2+
G3
TxIN10
I
B6
TxOUT3-
O
G4
TxIN13
I
A8
TxOUT3+
O
G5
R_FB
I
A4
LVDS VCC
P
G6
GND
G
A5
LVDS VCC
P
G7
TxIN21
I
C7
PLL VCC
P
G8
TxIN23
I
E1
VCC
P
H1
TxIN9
I
E6
VCC
P
H2
VCC
P
H2
VCC
P
H3
TxIN11
I
B8
NC
H4
TxIN14
I
C2
NC
H5
TxIN15
I
C3
NC
H6
TxIN18
I
F2
NC
H7
TxIN19
I
F3
NC
H8
TxIN20
I
F6
NC
G : Ground
I : Input
O : Output
P : Power
NC : No Connect
13
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DS90C385/DS90C365
DS90C385SLC SLC64A (FBGA) Package Pin Description —
FPD Link Transmitter (Continued)
DS90C385/DS90C365
DS90C365 Pin Description —
FPD Link Transmitter
I/O
No.
TxIN
Pin Name
I
21
TTL level input. This includes: 6 Red, 6 Green, 6 Blue, and 3 control lines — FPLINE,
FPFRAME and DRDY (also referred to as HSYNC, VSYNC, Data Enable).
Description
TxOUT+
O
3
Positive LVDS differential data output.
TxOUT−
O
3
Negative LVDS differential data output.
TxCLKIN
I
1
TTL Ievel clock input. Pin name TxCLK IN.
R_FB
I
1
Programmable strobe select (See Table 1).
TxCLK OUT+
O
1
Positive LVDS differential clock output.
TxCLK OUT−
O
1
Negative LVDS differential clock output.
PWR DOWN
I
1
TTL level input. Assertion (low input) TRI-STATES the outputs, ensuring low current at power
down. See Applications Information section.
VCC
I
3
Power supply pins for TTL inputs.
GND
I
4
Ground pins for TTL inputs.
PLL VCC
I
1
Power supply pin for PLL.
PLL GND
I
2
Ground pins for PLL.
LVDS VCC
I
1
Power supply pin for LVDS outputs.
LVDS GND
I
3
Ground pins for LVDS outputs.
TRANSMITTER INPUT CLOCK
Applications Information
The transmitter input clock must always be present when the
device is enabled (PWR DOWN = HIGH). If the clock is
stopped, the PWR DOWN pin must be used to disable the
PLL. The PWR DOWN pin must be held low until after the
input clock signal has been reapplied. This will ensure a
proper device reset and PLL lock to occur.
The DS90C385/DS90C365 are backward compatible with
the DS90C383/DS90C363, DS90C383A/DS90C363A and
the TSSOP versions are a pin-for-pin replacements. The
device (DS90C385/DS90C365) utilizes a different PLL architecture employing an internal 7X clock for enhanced pulse
position control.
This device (DS90C385/DS90C365) also features reduced
variation of the TCCD parameter which is important for dual
pixel applications. (See AN-1084) TCCD variation has been
measured to be less than 500ps at 85MHz under normal
operating conditions.
This device may also be used as a replacement for the
DS90CF583/563 (5V, 65MHz) and DS90CF581/561 (5V,
40MHz) FPD-Link Transmitters with certain considerations/
modifications:
POWER SEQUENCING AND POWERDOWN MODE
Outputs of the transmitter remain in TRI-STATE until the
power supply reaches 2V. Clock and data outputs will begin
to toggle 10 ms after VCC has reached 3V and the Powerdown pin is above 1.5V. Either device may be placed into a
powerdown mode at any time by asserting the Powerdown
pin (active low). Total power dissipation for each device will
decrease to 5 µW (typical).
The transmitter input clock may be applied prior to powering
up and enabling the transmitter. The transmitter input clock
may also be applied after power up; however, the use of the
PWR DOWN pin is required as described in the Transmitter
Input Clock section. Do not power up and enable (PWR
DOWN = HIGH) the transmitter without a valid clock signal
applied to the TxCLK IN pin.
The FPD Link chipset is designed to protect itself from
accidental loss of power to either the transmitter or receiver.
If power to the transmit board is lost, the receiver clocks
(input and output) stop. The data outputs (RxOUT) retain the
states they were in when the clocks stopped. When the
receiver board loses power, the receiver inputs are controlled by a failsafe bias circuitry. The LVDS inputs are
High-Z during initial power on and power off conditions.
Current is limited (5 mA per input) by the fixed current mode
drivers, thus avoiding the potential for latchup when powering the device.
RECEIVER FAILSAFE FEATURE
The FPD Link receivers have input failsafe bias circuitry to
guarantee a stable receiver output for floating or terminated
receiver inputs. Under these conditions receiver inputs will
be pulled to a HIGH state. This is the case if not all data
channels are required in the application. Leave the extra
1.
Change 5V power supply to 3.3V. Provide this supply to
the VCC, LVDS VCC and PLL VCC of the transmitter.
2. The DS90C385/DS90C365 transmitter input and control
inputs accept 3.3V LVTTL/LVCMOS levels. They are not
5V tolerant.
3. To implement a falling edge device for the DS90C385/
DS90C365, the R_FB pin may be tied to ground OR left
unconnected (an internal pull-down resistor biases this
pin low). Biasing this pin to Vcc implements a rising edge
device.
TRANSMITTER CLOCK JITTER CYCLE-TO-CYCLE
Figures 15 and 16 illustrate the timing of the input clock
relative to the input data. The input clock (TxCLKin) is intentionally shifted to the left −3ns and +3ns to the right when
data (Txin0-27) is high. This 3ns of cycle-to-cycle clock jitter
is repeated at a period of 2µs, which is the period of the input
data (1µs high, 1µs low). At different operating frequencies
the N Cycle is changed to maintain the desired 3ns cycleto-cycle jitter at 2µs period.
TRANSMITTER INPUT PINS
The TxIN and control input pins are compatible with LVCMOS and LVTTL levels. These pins are not 5V tolerant.
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14
If a clock signal is present, data outputs will all be HIGH; if
the clock input is also floating/terminated, data outputs will
remain in the last valid state. A floating/terminated clock
input will result in a LOW clock output.
(Continued)
channel’s inputs open. This minimizes power dissipation and
locks the unused channels outputs into a stable known
(HIGH) state.
Pin Diagram for TSSOP Packages
DS90C385MTD
DS90CF365MTD
10086824
10086823
Typical Application
10086803
TABLE 1. Programmable Transmitter (DS90C385/DS90C365)
Pin
Condition
Strobe Status
R_FB
R_FB = VCC
Rising edge strobe
R_FB
R_FB = GND or NC
Falling edge strobe
15
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DS90C385/DS90C365
Applications Information
DS90C385/DS90C365
Physical Dimensions
inches (millimeters) unless otherwise noted
56-Lead Molded Thin Shrink Small Outline Package, JEDEC
Dimensions in millimeters only
Order Number DS90C385MTD
NS Package Number MTD56
48-Lead Molded Thin Shrink Small Outline Package, JEDEC
Dimensions in millimeters only
Order Number DS90C365MTD
NS Package Number MTD48
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16
inches (millimeters) unless otherwise noted (Continued)
64 ball, 0.8mm fine pitch ball grid array (FBGA) Package
Dimensions show in millimeters only
Order Number DS90C385SLC
NS Package Number SLC64A
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NATIONAL’S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT
DEVICES OR SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROVAL OF THE PRESIDENT AND GENERAL
COUNSEL OF NATIONAL SEMICONDUCTOR CORPORATION. As used herein:
1. Life support devices or systems are devices or
systems which, (a) are intended for surgical implant
into the body, or (b) support or sustain life, and
whose failure to perform when properly used in
accordance with instructions for use provided in the
labeling, can be reasonably expected to result in a
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Support Center
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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.
DS90C385/DS90C365 +3.3V Programmable LVDS Transmitter 24-Bit Flat Panel Display (FPD)
Link-85 MHz, +3.3V Programmable LVDS Transmitter 18-Bit Flat Panel Display (FPD) Link-85 MHz
Physical Dimensions