ETC INDR331B

INDT/R166B
INDT/R331B
Preliminary Data Sheet
Order this document by Q_DS_IND166-331
Long Distance Digital Display
Link Transmitter & Receiver
The GigaSTaR Digital Display Link 166/331-series is an
innovative high-speed link featuring simultaneous
transmission of digital video, audio and bi-directional
sideband data over one standard shielded twisted pair
cable up to 50 m (500 m with fiber optics). It supports
VGA…UXGA as well as Digital TV (DTV) and HighDefinition TV (HDTV) formats up to 720p or HDTV1080i
with up to 16.7 million colors. The sideband channels
provide bandwidth up to 264 Mbps to connect peripheral
components like keyboard, mouse, disc drive and audio
devices.
Compared to the 165/330-series the 166/331 offer
additional features like a tristate pixel interface (Rx only)
and an integrated pixel buffer to reducing pixel clock
variations. The 166/331 may be used as direct drop-in
replacement for the 165/330 under specified conditions.
INDT/R166B
VESA Format
at 18bit/60Hz
VGA…WXGA
VESA Format
at 24bit/60Hz
VGA…XGA
INDT/R331B
VGA…UXGA
VGA…SXGA
HDTV (24 bit)
INDT/R166B
480p (60fps), 720p (30fps)
INDT/R331B
480p (60fps), 720p (60fps), 1080i (30fps)
Features:
Applications:
• Parallel graphics controller and LC-display interfaces:
− 18- / 24-bit (1 pixel/clock)
− 36- / 48-bit (2 pixel/clock)
• Pixel data clocking on rising/falling/both clock edges
• Pixel Clock frequency: 24 – 161 MHz
• Direct adaptation to DVI and LDI/LVDS standard interface
devices
• 4 channel audio interface (IEC958 compliant S/P-DIF)
• High- and low-speed bi-directional sideband data channels
• Single + 3.3 V power supply
• Extended temperature range: -40 – +85 °C
• Long distance multimedia consoles
• High resolution industrial remote terminals
• Video broadcast systems
• Long distance camera links
• Machine vision systems
• Digital TV equipment
• Video Projectors and Home Cinemas
• DVI Extension products
Optional Data Sources
Typical Application:
PC
Graphics
Controller
VIDEO
Transmitter
DATA
INDT166B
or
INDT331B
Camera
DVD
HDTV
AUDIO
Date: 2005-03-14 Revision: 0.1
Receiver
VIDEO
STP-cable
INDR166B
or
INDR331B
TFT
LC-Display
DATA
AUDIO
Page 1 of 40
Preliminary Data Sheet
INDT/R166B
INDT/R331B
Index
1
General Description ............................................................................................................................ 3
1.1
Link Interface ....................................................................................................................................3
1.1.1
Link Interface Bandwidth ............................................................................................................3
1.2
Pixel Interface ...................................................................................................................................4
1.2.1
General Information....................................................................................................................4
1.2.2
Pixel Interface Modes .................................................................................................................5
1.2.3
Pixel Clock Sampling Modes ......................................................................................................5
1.2.4
Pixel Data I/O Color Bit Mapping ................................................................................................7
1.3
Sideband Interface ............................................................................................................................8
1.3.1
General Information....................................................................................................................8
1.3.2
Low-speed Upstream Sideband Data Channel (SB0)..................................................................9
1.3.3
High-speed Upstream Sideband Data Channel (SB1).................................................................9
1.3.4
Low-speed Downstream Sideband Data Channel (SB2) .............................................................9
1.3.5
High-speed Downstream Sideband Data Channel (SB3, SB4). ...................................................9
1.3.6
Sideband Interface Signals.......................................................................................................10
1.4
Audio Interface................................................................................................................................11
2
Device Configuration ........................................................................................................................ 12
2.1
Pixel Clock Conditioning (Rx only) ...................................................................................................12
2.2
Configuration Vectors and Configuration Data .................................................................................13
2.3
Configuration Process and Timing ...................................................................................................14
2.4
Interface Configuration Scheme ......................................................................................................15
2.5
Error Handling and Reset ................................................................................................................15
3
Electrical Specification ..................................................................................................................... 16
3.1
External Circuits ..............................................................................................................................16
3.1.1
External Loop Filter Specification..............................................................................................16
3.1.2
Serial Transmission Cable Interconnect....................................................................................16
3.1.3
Serial Transmission Cable Termination.....................................................................................17
3.1.4
Receiver Equalizer ...................................................................................................................17
3.1.5
Reference Clock.......................................................................................................................17
3.1.6
VREF Reference Circuitry...........................................................................................................17
3.2
Power Supply..................................................................................................................................17
3.3
Absolute Maximum Ratings .............................................................................................................18
3.4
Recommended Operating Conditions ..............................................................................................18
3.5
AC–Characteristics (under recommended operating conditions, Reference Clock Freq. = 66 MHz)..19
3.6
DC–Characteristics (under recommended operating conditions) ......................................................19
3.7
Reference Clock Specification (Ta = -40 to 85° C; Vcc = 3.15 to 3.45 V)..........................................19
3.8
Timing Specification ........................................................................................................................20
4
Signals............................................................................................................................................... 27
4.1
INDT166B Transmitter Signal Description........................................................................................27
4.2
INDR166B Receiver Signal Description ...........................................................................................28
4.3
INDT331B Transmitter Signal Description........................................................................................30
4.4
INDR331B Receiver Signal Description ...........................................................................................32
5
Pin Assignment ................................................................................................................................. 34
5.1
INDT166B Transmitter ....................................................................................................................34
5.2
INDR166B Receiver ........................................................................................................................35
5.3
INDT331B Transmitter ....................................................................................................................36
5.4
INDR331B Receiver ........................................................................................................................37
6
Package Information ......................................................................................................................... 38
6.1
INDT/R166B....................................................................................................................................38
6.2
INDT/R331B....................................................................................................................................39
7
Ordering and Product Availability .................................................................................................... 40
8
Revision History................................................................................................................................ 40
Date: 2005-03-14 Revision: 0.1
Page 2 of 40
Preliminary Data Sheet
INDT/R166B
INDT/R331B
1 General Description
The GigaSTaR Digital Display Link is a high-speed serial and long distance link for video, audio and digital data, which
supports the popular VESA and Digital TV standards as well as proprietary video formats from VGA to UXGA with color
depth up to 24 bits.
1.1
Link Interface
The INDT/R166B link requires one single twisted pair cable for the high-speed downlink. The INDT/R331B provides double
bandwidth by using two twisted pairs. Both devices offer an uplink connection using a twisted pair. The downlink must be
established before the uplink can be activated.
VIDEO
M
U
X
Downlink
AUDIO
D
E
M
U
X
VIDEO
AUDIO
Only INDT/R330
SIDEBAND
DATA
SIDEBAND
DATA
Uplink
Figure 1.1: GigaSTaR Digital Display Link Interfaces
The transmitter’s and receiver’s generic parallel RGB interfaces (CMOS/TTL compatible) support direct connection to the
parallel data port of any graphic controller or to any flat panel display with a parallel pixel data port. The bit width of the
pixel data path can be scaled to support the 18- or 24-bit mode with 1 pixel/clock, the 36- or 48-bit mode with 2 pixel/clock.
Pixel data can be clocked into the transmitter on the rising, falling or on both edges (18-, 24-bit mode) of the pixel clock.
Pixel data are provided at the receiver on the rising, falling or on both edges (18-, 24-bit mode) of the pixel clock.
1.1.1
Link Interface Bandwidth
The bandwidth of the downlink is shared between video, audio and sideband data. Disabling audio and/or sideband
channels, even partially, increases the available bandwidth for the video data. The video configuration required for VESA
or Digital TV (DTV) / High-Definition TV (HDTV) standard compatible video resolutions is shown in Table 1.1 and Table
1.2.
Mode
1
2
3
4
INDT/R166B configurations
High-speed
Low-speed
Audio
Sideband
Sideband
X
X
X/–
–
X
X
–
–
–
X
X
X
Up to
VESA-/DTV-Mode
XGA 18 color bits
XGA 18 color bits
XGA 24 color bits
480p(60fps), 720p (30fps)
Table 1.1: INDT/R166B Video Configuration
Date: 2005-03-14 Revision: 0.1
Page 3 of 40
INDT/R166B
INDT/R331B
Preliminary Data Sheet
Mode
1
2
3
4
5
INDT/R331B configurations
High-speed
Low-speed
Audio
Sideband
Sideband
X
X
X/–
–
X
X
–
–
–
X
X
X
X
X
X
Up to
VESA-/DTV-Mode
SXGA 24 color bits
UXGA 18 color bits
UXGA 18 color bits
720p (60fps)
1080i (30fps)
Table 1.2: INDT/R331B Video Configuration
Note: Implementation of video modes other than VESA or DTV/HDTV is possible. Special modes may need evaluation.
1.2
1.2.1
Pixel Interface
General Information
The pixel interface is designed to support direct interfacing to any digital graphics device with a parallel data port such as
graphic-cards/controllers, CCD cameras or flat panel TFT displays. With standard interface devices the data port can also
be adapted to systems with non-generic parallel interfaces such as DVI or LVDS/OpenLDI.
PX_CLK_IN
PX_CLK_OUT
PX_CLK+
PX_CLK–
Video
Video
Downstream
PX_CLK
PX_D[47:0]
PX_D[47:0]
48
PX_HSYNC
PX_VSYNC
PX_DE
48
INDT
Transmitter
INDR
Receiver
PX_HSYNC
PX_VSYNC
PX_DE
Figure 1.2: Pixel Interface
Signal
PX_D[47:0]
PX_CLK+
PX_CLK–
PX_CLK
PX_CLK_OUT
PC_CLK_IN
PX_HSYNC
PX_VSYNC
PX_DE
1
Tx
IN
IN
IN
IN
IN
IN
Rx
OUT
OUT
OUT
OUT
OUT
IN
OUT
OUT
OUT
Description
Configurable parallel pixel data interface
Tx Pixel clock 24 – 161 MHz, diff + or single-ended
Tx Pixel clock 24 – 161 MHz, diff –
Rx Pixel clock 24 – 161 MHz
Rx Pixel clock 24 – 161 MHz, de-jitter
Rx Pixel clock 24 – 161 MHz, de-jitter
Pixel data framing – Horizontal sync pulse
Pixel data framing – Vertical sync pulse
Pixel data framing – Data enable
Table 1.3: Pixel Interface Signals
1
Configurable to 3.3V or 1.8V input levels via VREF-pin.
Date: 2005-03-14 Revision: 0.1
Page 4 of 40
Preliminary Data Sheet
INDT/R166B
INDT/R331B
The transmitter’s pixel interface accepts pixel data with a pixel clock frequency of 24 – 161 MHz (full pixel mode). For the
Tx side in single-ended mode, PX_CLK+ is the clock input and PX_CLK– has to be tied to GND. A differential pixel clcok
mode on the Rx side is not available. All pixel data and pixel clock inputs of the transmitter can be selected through the
VREF-pin to either work with conventional graphic controllers with 3.3 V output voltage swing or to work with latest
controllers with low voltage swing (1.0 – 2.0 V, see Figure 3.3: VREF Reference Circuitry). The pixel data and pixel
clock outputs of the receiver provide a 3.3 V CMOS compliant output.
1.2.2
Pixel Interface Modes
The pixel interface is configurable to accommodate all the various graphic interface standards in the market. The width of
the pixel interface is a function of the selected operating mode.
• In full-pixel mode the bit width of the pixel interface can be set to support an 18- or 24-bit wide parallel video interface.
1 pixel per sampling edge is transmitted.
• In double-pixel mode the bit width of the pixel interface can be set to support a 36- or 48-bit wide parallel video
interface. 2 pixels per sampling edge are transmitted.
1.2.3
Pixel Clock Sampling Modes
The pixel interface can be set to support data sampling at the rising, falling or at both edges of the pixel clock,
depending on the selected mode.
Table 1.4 and , Figure 1.4, Figure 1.5 summarize the various options for configuring the pixel interface.
Pixel Mode
18-bit
(Full Pixel)
24-bit
(Full Pixel)
36-bit
(Double
Pixel)
48-bit
(Double
Pixel)
Clock
Edge
PX_CLK+
PX_CLK-
rising
falling
both
rising
falling
both
↑
↓
↑↓
↑
↓
↑↓
–
–
–
–
–
–
rising
↑
–
falling
↓
–
rising
↑
–
falling
↓
–
Description
18 bits of pixel(n) sampled at rising edge of PX_CLK+
18 bits of pixel(n) sampled at falling edge of PX_CLK+
18 bits of pixel(n) sampled at both edges of PX_CLK+
24 bits of pixel(n) sampled at rising edge of PX_CLK+
24 bits of pixel(n) sampled at falling edge of PX_CLK+
24 bits of pixel(n) sampled at both edges of PX_CLK+
18 bits of pixel(n) and
18 bits of pixel(n+1) sampled at rising edge of PX_CLK+
18 bits of pixel(n) and
18 bits of pixel(n+1) sampled at falling edge of PX_CLK+
24 bits of pixel(n) and
24 bits of pixel(n+1) sampled at rising edge of PX_CLK+
24 bits of pixel(n) and
24 bits of pixel(n+1) sampled at falling edge of PX_CLK+
Table 1.4: Overview – Pixel Interface Configurations
Date: 2005-03-14 Revision: 0.1
Page 5 of 40
INDT/R166B
INDT/R331B
Preliminary Data Sheet
PX_DE
PX_D[23:0]
P0
P1
P2
P3
P4
P5
18/24-bit Mode
(Full Pixel)
P6
PX_CLK+
rising edge clock mode
PX_CLK+
falling edge clock mode
PX_CLK+
both edge clock mode
Figure 1.4: Pixel Interface – Full Pixel Modes
PX_DE
PX_D[47:24]
P1
P3
P5
P7
Odd pixel
36/48-bit Mode
(Double Pixel)
PX_D[23:0]
P0
P2
P4
P6
Even pixel
PX_CLK+
rising edge clock mode
PX_CLK+
falling edge clock mode
Figure 1.5: Pixel Interface – Double Pixel Modes
Date: 2005-03-14 Revision: 0.1
Page 6 of 40
Preliminary Data Sheet
1.2.4
INDT/R166B
INDT/R331B
Pixel Data I/O Color Bit Mapping
The color bits are mapped to the parallel I/Os as a function of the selected pixel clock (R = Red, G = Green, B = Blue, O = Odd,
E = Even).
Data
PX_D47
PX_D46
PX_D45
PX_D44
PX_D43
PX_D42
PX_D41
PX_D40
PX_D39
PX_D38
PX_D37
PX_D36
PX_D35
PX_D34
PX_D33
PX_D32
PX_D31
PX_D30
PX_D29
PX_D28
PX_D27
PX_D26
PX_D25
PX_D24
PX_D23
PX_D22
PX_D21
PX_D20
PX_D19
PX_D18
PX_D17
PX_D16
PX_D15
PX_D14
PX_D13
PX_D12
PX_D11
PX_D10
PX_D9
PX_D8
PX_D7
PX_D6
PX_D5
PX_D4
PX_D3
PX_D2
PX_D1
PX_D0
Full Pixel
18-bit Mode
24-bit Mode
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
R[5]
R[7]
R[4]
R[6]
R[3]
R[5]
R[2]
R[4]
R[1]
R[3]
R[0]
R[2]
–
R[1]
–
R[0]
G[5]
G[7]
G[4]
G[6]
G[3]
G[5]
G[2]
G[4]
G[1]
G[3]
G[0]
G[2]
–
G[1]
–
G[0]
B[5]
B[7]
B[4]
B[6]
B[3]
B[5]
B[2]
B[4]
B[1]
B[3]
B[0]
B[2]
–
B[1]
–
B[0]
Double Pixel
36-bit Mode
48-bit Mode
RO[5]
RO[7]
RO[4]
RO[6]
RO[3]
RO[5]
RO[2]
RO[4]
RO[1]
RO[3]
RO[0]
RO[2]
–
RO[1]
–
RO[0]
GO[5]
GO[7]
GO[4]
GO[6]
GO[3]
GO[5]
GO[2]
GO[4]
GO[1]
GO[3]
GO[0]
GO[2]
–
GO[1]
–
GO[0]
BO[5]
BO[7]
BO[4]
BO[6]
BO[3]
BO[5]
BO[2]
BO[4]
BO[1]
BO[3]
BO[0]
BO[2]
–
BO[1]
–
BO[0]
RE[5]
RE[7]
RE[4]
RE[6]
RE[3]
RE[5]
RE[2]
RE[4]
RE[1]
RE[3]
RE[0]
RE[2]
–
RE[1]
–
RE[0]
GE[5]
GE[7]
GE[4]
GE[6]
GE[3]
GE[5]
GE[2]
GE[4]
GE[1]
GE[3]
GE[0]
GE[2]
–
GE[1]
–
GE[0]
BE[5]
BE[7]
BE[4]
BE[6]
BE[3]
BE[5]
BE[2]
BE[4]
BE[1]
BE[3]
BE[0]
BE[2]
–
BE[1]
–
BE[0]
Table 1.5: Pixel Interface Bit Mapping
Date: 2005-03-14 Revision: 0.1
Page 7 of 40
INDT/R166B
INDT/R331B
Preliminary Data Sheet
1.3
1.3.1
Sideband Interface
General Information
The sideband interfaces provide a bi-directional data path subdivided into several logical data streams with different
bandwidth in both directions:
Downstream: Data direction from Transmitter (INDT)
Upstream:
Data direction to Transmitter (INDT)
-->
<--
to Receiver (INDR)
from Receiver (INDR)
Activating the upstream sideband data transmission necessitates an additional pair of wires to establish the physical uplink
(see 1.1 Link Interface). STP cables usually contain 4 pairs of wires; thus this extra connection is available in most cases.
If the upstream sideband data channel is not used, it has to be disabled. The downstream sideband data channels can be
partially disabled to provide extra bandwidth for the pixel data transmission.
SB4_CLKI
SB4_CLKO
SB4_D[1:0]
SB3_CLKI
SB3_CLKO
SB3_D[1:0]
2
SB4
SB4
High Speed
High Speed
SB3
High Speed
Downstream
SB4_CLK
SB4_D[1:0]
2
SB3
SB3_CLK
SB3_D[1:0]
High Speed
2
2
SB2_CLK
SB2_D[3:0]
SB2
SB2
Low Speed
Low Speed
SB2_CLK
SB2_D[3:0]
4
4
SB1_CLK
SB1_D[1:0]
SB1
2
SB1
High Speed
High Speed
2
SB1_CLKI
SB1_CLKO
SB1_D[1:0]
Upstream
SB0_CLK
SB0_D[3:0]
SB0
SB0
Low Speed
Low Speed
4
SB0_CLK
SB0_D[3:0]
4
INDT
Transmitter
INDR
Receiver
Figure 1.6: Sideband Data Interfaces
Note: SB4 available at INDT/R331B only.
Date: 2005-03-14 Revision: 0.1
Page 8 of 40
INDT/R166B
INDT/R331B
Preliminary Data Sheet
Interface
Signals (D+Clk)
INDT
INDR
SB0
4+1
4+1
Low speed
Upstream
Width
[bit]
4
SB2
4+1
4+1
Low speed
Downstream
4
4.26
–
X
SB1
2+1
2+2
High speed
Upstream
2
111.375
X
X
–
SB3
2+2
2+1
High speed
Downstream
2
132
X
X
X
2
2+2
2+1
High speed
Downstream
2
132
X
X
X
SB4
Speed
Direction
Bandwidth
[Mbps]
4.125
Asynchronous
–
Synchronous
X
Sampling
–
–
Table 1.6: Transfer Capabilities Sideband Data Interface Signals
1.3.2
Low-speed Upstream Sideband Data Channel (SB0)
The low-speed upstream sideband data channel consists of one 4 Mbps data channel with a 4-bit parallel interface (or 4
individual 1 Mbps data channels, each consisting of a 1-bit serial interface) and one synchronous clock output (SB0_CLK).
1.3.3
High-speed Upstream Sideband Data Channel (SB1)
The high-speed upstream sideband data channel has a 2-bit wide data interface. Different operating modes can be
selected. The maximum bandwidth is 111 Mbps. This can be used for any generic data link e.g. a low-resolution graphics
channel or a CMOS image sensor.
In asynchronous clocking mode an external clock can be applied into SB1_CLKI of the INDR. The range of the external
acceptable clock frequency is 0 – 55 MHz. In synchronous mode data are read into the INDR using the synchronous clock
frequency of 55 MHz being output at SB1_CLKO. In both cases the transferred data are available at the INDT with a fixed
clock of 55 MHz.
1.3.4
Low-speed Downstream Sideband Data Channel (SB2)
The low-speed downstream sideband data channel consists of one 4 Mbps data channel with a 4-bit parallel interface (or 4
individual 1 Mbps data channels, each consisting of a 1-bit serial interface) and one synchronous clock output (SB2_CLK).
1.3.5
High-speed Downstream Sideband Data Channel (SB3, SB42).
The INDT/R166B (INDT/R331B) features one (two) high-speed downstream sideband data channels, each with a 2-bit
wide data interface. Different operating modes can be selected. The maximum bandwidth is 132 Mbps (2 x 132 Mbps).
2
In asynchronous clocking mode an external clock can be feed into SB3_CLKI (and SB4_CLKI ) of the INDT. The range of
the external acceptable clock frequency is 0 – 66 MHz. In synchronous mode data are read into the INDT using the
2
synchronous clock frequency of 66 MHz being output at SB3_CLKO (and SB4_CLKO ). In both cases the transferred data
are available at the INDR with a fixed clock of 66 MHz. In sampling mode, the sideband data are sampled with an internal
sampling clock at 66 MHz.
2
Sideband Data Channel 4 (SB4) only available with INDT/R330B
Date: 2005-03-14 Revision: 0.1
Page 9 of 40
Preliminary Data Sheet
1.3.6
INDT/R166B
INDT/R331B
Sideband Interface Signals
Sideband
Signal
Dir
SB0
SB0_CLK
OUT
SB0
SB0_D[3:0]
OUT
SB1
SB1_CLK
OUT
SB1
SB1_D[1:0]
OUT
SB2
SB2_CLK
OUT
SB2
SB2_D[3:0]
IN
SB3
SB3_CLKI
IN
SB3
SB3_CLKO
OUT
SB3
SB3_D[1:0]
IN
3
SB4_CLKI
IN
3
SB4_CLKO
OUT
3
SB4_D[1:0]
IN
SB4
SB4
SB4
Description
Sideband Data Channel 0 Upstream Synchronous Clock Output. Data
is provided aligned to rising edge.
Sideband Data Channel 0 Upstream Output
Sideband Data Channel 1 Upstream Synchronous Clock Output. Data
is provided aligned to rising edge.
Sideband Data Channel 1 Upstream Output
Sideband Data Channel 2 Downstream Synchronous Clock Output.
Data is registered at rising edge.
Sideband Data Channel 2 Downstream Input
Sideband Data Channel 3 Downstream Asynchronous Clock Input.
Data is registered at rising edge.
Sideband Data Channel 3 Downstream Synchronous Clock Output.
Data is registered at rising edge.
Sideband Data Channel 3 Downstream Input
Sideband Data Channel 4 Downstream Asynchronous Clock Input.
Data is registered at rising edge.
Sideband Data Channel 4 Downstream Synchronous Clock Output.
Data is registered at rising edge.
Sideband Data Channel 4 Downstream Input.
Table 1.7: Sideband Interface Signals (INDT, Transmitter)
Sideband
Signal
Dir
SB0
SB0_CLK
OUT
SB0
SB0_D[3:0]
IN
SB1
SB1_CLKI
IN
SB1
SB1_CLKO
OUT
SB1
SB1_D[1:0]
IN
SB2
SB2_CLK
OUT
SB2
SB2_D[3:0]
OUT
SB3
SB3_CLK
OUT
SB3
SB3_D[1:0]
OUT
3
SB4_CLK
OUT
3
SB4_D[1:0]
OUT
SB4
SB4
Description
Sideband Data Channel 0 Upstream Synchronous Clock Output. Data
is registered at rising edge.
Sideband Data Channel 0 Upstream Input
Sideband Data Channel 1 Upstream Asynchronous Clock Input. Data
is registered at rising edge.
Sideband Data Channel 1 Upstream Synchronous Clock Output. Data
is registered at rising edge.
Sideband Data Channel 1 Upstream Input
Sideband Data Channel 2 Downstream Synchronous Clock Output.
Data is provided aligned to rising edge.
Sideband Data Channel 2 Downstream Output
Sideband Data Channel 3 Downstream Synchronous Clock Output.
Data is provided aligned to rising edge.
Sideband Data Channel 3 Downstream Output
Sideband Data Channel 4 Downstream Synchronous Clock Output.
Data is provided aligned to rising edge.
Sideband Data Channel 4 Downstream Output.
Table 1.8: Sideband Interface Signals (INDR, Receiver)
3
Sideband Data Channel 4 (SB4) only available with INDT/R330B
Date: 2005-03-14 Revision: 0.1
Page 10 of 40
Preliminary Data Sheet
1.4
INDT/R166B
INDT/R331B
Audio Interface
The audio interface provides four serial audio channels, which are compliant to the Standard IEC958 Digital audio interface
from the EBU (European Broadcasting Union), also known as S/P-DIF Interface. It supports sampling frequencies of 44,1
kHz and 48,0 kHz. The audio data interface can be disabled to free up bandwidth for pixel data transmission.
AI_C0
AI_C1
AI_C2
AI_C0
Audio
Audio
Downstream
S/P DIF
S/P DIF
AI_C3
AI_C1
AI_C2
AI_C3
INDR
Reveiver
INDT
Transmitter
Figure 1.7: Audio Interface
Signal
AI_C0
AI_C1
AI_C2
AI_C3
Tx
IN
IN
IN
IN
Rx
OUT
OUT
OUT
OUT
Description
S/P-DIF Audio Channel 0
S/P-DIF Audio Channel 1
S/P-DIF Audio Channel 2
S/P-DIF Audio Channel 3
Table 1.9: Audio Interface Signals
Date: 2005-03-14 Revision: 0.1
Page 11 of 40
Preliminary Data Sheet
INDT/R166B
INDT/R331B
2 Device Configuration
The GigaSTaR Digital Display Link allows for configuring the pixel-, sideband- and audio-interface.
2.1
Pixel Clock Conditioning (Rx only)
In order to allow for interfacing with devices being susceptible to any clock variations the Rx device provides the capability
to compensate for that.
PX_CLK_OUT holds the pixel clock signal as it has been created from the embedded clock in the data stream. Those
signals are typically afflicted with jitter, which may cause invalid data on interfacing devices dependent on its PLL
performance. By feeding back the PX_CLK_OUT via an external PLL into the PX_CLK_IN, the PX_CLK signal can be dejittered. As soon the PX_CLK_IN receives a valid frequency of 20MHz or higher the pixel data outputs are enabled and the
PX_CLK provides the valid and jitter-free pixel clock accordingly.
PLL
PX_CLK_OUT
PX_CLK_IN
INDR
Receiver
PX_CLK
PX_D0…47
Figure 2.1: Pixel Clock conditioning
When PX_CLK_IN is tied to logic HIGH the pixel data outputs PX_D0…D47 are tri-stated.
When PX_CLK_IN is tied to logic LOW the Rx166/Rx331 operates as Rx165/Rx330, with the restriction that the PX_CLK(signal provided by Rx165/Rx330) is not available. In this case the PX_CLK holds the pixel clock signal as it has been
created from the embedded clock in the data stream. Though the 166/331series can be used in applications designed for
165/330-series, other combinations than pairs (Tx and Rx) of the same series are not compatible.
Note: The external PLL shall have an integrating characteristic to prepare the PX_CLK signal for proper and stable
interfacing with devices (DVI/LVDS) whose internal PLL performance may cause data loss especially at higher frequencies
and resolutions.
Date: 2005-03-14 Revision: 0.1
Page 12 of 40
INDT/R166B
INDT/R331B
Preliminary Data Sheet
2.2
Configuration Vectors and Configuration Data
Four configuration vectors (cfg0 – cfg3, 4-bit each) must be loaded into the device through the low-speed sideband data
interfaces SB0 and SB2. The Tx and the Rx device must be connected via the downlink.
SB0 and SB2 sideband data are multiplexed and are also used for device configuration. After de-assertion of RESET#,
CFG_CYC is automatically being driven high and enables the configuration process.
The configuration select signals (CFG_SEL[3:0]) are provided sequentially at SB0 (INDT) respectively at SB2 (INDR).
These select signals enable e.g. an external logic which provides the configuration vectors (cfg0 – cfg3) via the
configuration signals CFG_D[3:0]. These are read at SB2 (INDT) respectively at SB0 (INDR).
Sequence
1
2
3
4
Vector
name
cfg0
cfg1
cfg2
cfg3
Configuration Select Signals
CFG_SEL[3:0]
0001
0010
0100
1000
Configuration vector
Requests configuration vector 0
Requests configuration vector 1
Requests configuration vector 2
Requests configuration vector 3
Table 2.1: Configuration Vector Sequence
Transmitter
Receiver
Configuration mode
(CFG_CYC = 1)
CFG_SEL[3:0]
CFG_D[3:0]
CFG_SEL[3:0]
CFG_D[3:0]
Normal mode
(CFG_CYC = 0)
SB0_D[3:0]
SB2_D[3:0]
SB2_D[3:0]
SB0_D[3:0]
Table 2.2: Pin Naming Multiplex Matrix
CFGEN
SYNC1/0
SB0_D[3…0]
SB1_D[1…0]
SDB
CFGDATA
LOW
t>1ms
LOW
t>1ms
For proper initialization of the upstream channel, the side band data input at the Rx needs to be kept low for >1ms after the
SYNC1/0 went high.
Figure 2.2 shows how to perform the configuration with external logic.
Date: 2005-03-14 Revision: 0.1
Page 13 of 40
INDT/R166B
INDT/R331B
Preliminary Data Sheet
CFG_CYC
SB0
0
1
2
CFG_CYC
CFG_SEL[3:0]
(SB0_D[3:0])
EN2
EN1
EN1
BUF
4
4
EN2
0
1
2
3
CFG_SEL[3:0]
(SB2_D[3:0])
cfg0
cfg0
4
EN1
cfg1
cfg1
BUF
4
4
INDT
BUF
4
4
BUF
4
EN1
EN2
BUF
cfg2
cfg2
4
4
EN1
4
0
1
2
3
4
0
1
2
3
CFG_D[3:0]
(SB0_D[3:0])
CFG_D[3:0]
(SB2_D[3:0])
EN2
BUF
cfg3
SB2
4
EN2
4
INDR
EN1
EN2
EN2
BUF
EN1
SB2
SB0
Figure 2.2: Configuration Logic
Each configuration vector’s default setting is “1111”. This popular operating mode (see light gray lines on following tables)
can easily be established with pull-up resistors from the configuration inputs to VCC instead of tri-state buffers. All
configuration vectors are valid for transmitter and receiver, unless otherwise noted.
2.3
Configuration Process and Timing
Figure 2.3 shows the configuration process.
RESET#
CFG_CYC
CFG_SEL[3:0]
CFG_D[3:0]
0x0
0x1
cfg0
0x0
0x2
cfg1
0x0
0x4
cfg2
0x0
0x8
0x0
cfg3
Internal clock
registers
config data
Figure 2.3: Timing of Configuration Process
Date: 2005-03-14 Revision: 0.1
Page 14 of 40
Preliminary Data Sheet
2.4
INDT/R166B
INDT/R331B
Interface Configuration Scheme
Note: The low-speed downstream sideband is automatically enabled, when high-speed downstream sideband OR audio is
enabled. INDT and INDR must be configured within the same group.
Interface
Vector
Name
Vector
Bits
1111
0100
0101
Pixel Interface
Description
24 bits of pixel(n) sampled at rising edge of PX_CLK+
24 bits of pixel(n) sampled at falling edge of PX_CLK+
24 bits of pixel(n) sampled at both edges of PX_CLK+
24 bits of pixel(n) and
1001
48-bit
24 bits of pixel(n+1) sampled at rising edge of PX_CLK+
24 bits of pixel(n) and
1010
48-bit
24 bits of pixel(n+1) sampled at falling edge of PX_CLK+
Pixel
cfg0
Interface
0000
18-bit
18 bits of pixel(n) sampled at rising edge of PX_CLK+
0001
18-bit
18 bits of pixel(n) sampled at falling edge of PX_CLK+
0010
18-bit
18 bits of pixel(n) sampled at both edges of PX_CLK+
18 bits of pixel(n) and
0110
36-bit
18 bits of pixel(n+1) sampled at rising edge of PX_CLK+
18 bits of pixel(n) and
0111
36-bit
18 bits of pixel(n+1) sampled at falling edge of PX_CLK+
Disable high-speed downstream sideband data channel
0000
4
SB3 and SB4
Enable high-speed downstream sideband data channel
11XX
4
SB3 and SB4
Sideband
Interface
Clocking: Asynchronous mode at downstream sideband
cfg1
1100
4
data channels SB3 and SB4
Tx
Clocking: Synchronous mode at downstream sideband
1111
4
data channels SB3 and SB4
Clocking: Sampling mode at downstream sideband data
Tx only
4
1110
channels SB3 and SB4
X100
Disable upstream sideband data
Audio +
X111
Enable upstream sideband data
High Speed
cfg2
Upstream
01XX
Disable Audio
SB1
11XX
Enable Audio
0000
Inom = x1.0, Ipre = x1.3, algorithm 1
0001
Inom = x1.0, Ipre = x1.3, algorithm 2
0010
Inom = x1.0, Ipre = x1.6, algorithm 1
0011
Inom = x1.0, Ipre = x1.6, algorithm 2
0100
Inom = x1.0, Ipre = x1.9, algorithm 1
Pre0101
Inom = x1.0, Ipre = x1.9, algorithm 2
Emphasis
0110
Inom = x1.3, Ipre = x1.6, algorithm 1
For
0111
Inom = x1.3, Ipre = x1.6, algorithm 2
Rx only
Serial
cfg3
1000
Inom = x1.3, Ipre = x1.9, algorithm 1
Upstream
1001
Inom = x1.3, Ipre = x1.9, algorithm 2
Trans1010
Inom = x1.6, Ipre = x1.9, algorithm 1
mission
1011
Inom = x1.6, Ipre = x1.9, algorithm 2
1100
Inom = Ipre = x1.9
1101
Inom = Ipre = x1.3
1110
Inom = Ipre = x1.0
Inom = Ipre = x1.6
1111
Note: others than the above mentioned vector bit combinations are not allowed
Group
24-bit
24-bit
24-bit
V1
V2
S1
S2
A
Table 2.3: Configuration of the Pixel Interface Mode
2.5
Error Handling and Reset
The chips provide an error detection signal (ERROR pin) indicating incorrect video timings. It is recommended to reset the
chip after the ERROR pin went high.
4
Sideband Data Channel 4 (SB4) only available with INDT/R330B
Date: 2005-03-14 Revision: 0.1
Page 15 of 40
Preliminary Data Sheet
INDT/R166B
INDT/R331B
3 Electrical Specification
3.1
3.1.1
External Circuits
External Loop Filter Specification
The internal PLLs of the INDT166B/331B and the INDR166B/331B devices require an external RC loop filter (Figure 3.1).
R1
C
R2
CAPx
CAPy
Figure 3.1: External Loop Filter Circuit
It is recommended to implement the 0-Ohm resistors R1 and R2 for the transmitter as real components, because their
values may change in future versions. Table 3.1 shows the optimal values for the INDT/R166B, Table 3.2 for the
INDT/R331B. It is recommended to use SMD ceramic chip capacitors and chip resistors.
Link
Signals
Pins
Parameter
Symbol
PLL0
CAP1
CAP2
C11
C12
Loop Filter Capacitor
Loop Filter Resistor 1
Loop Filter Resistor 2
C
R1
R2
Value Tx
(INDT166B)
1µF
0Ω
0Ω
Value Rx
(INDR166B)
1µF
47 Ω
47 Ω
Table 3.1: External Loop Filter Specification for INDT/R166B
Link
Signals
Pins
PLL0
CAP1
CAP2
A15
B15
PLL1
CAP3
CAP4
A8
B8
Parameter
Loop Filter
Loop Filter
Loop Filter
Loop Filter
Loop Filter
Loop Filter
Symbol
Capacitor
Resistor 1
Resistor 2
Capacitor
Resistor 1
Resistor 2
C
R1
R2
C
R1
R2
Value Tx
(INDT331B)
1µF
0Ω
0Ω
1µF
0Ω
0Ω
Value Rx
(INDR331B)
1µF
47 Ω
47 Ω
1µF
47 Ω
47 Ω
Table 3.2: External Loop Filter Specification for INDT/R331B
3.1.2
Serial Transmission Cable Interconnect
The serial lines have to be AC-coupled through 100 nF capacitors; RF ceramic capacitors shall be used. Values for R and
L are dependent on the type of cable.
Decoupling capacitor
Cable termination
RX0+
TX0+
R
L
RX0–
TX0–
Downstream
RX1+
TX1+
R
INDT
INDR
L
RX1–
TX1–
Only INDT/R 330
TX2+
RX2+
R
L
TX2–
RX2–
Upstream
Figure 3.2: Decoupling and Cable Termination
Date: 2005-03-14 Revision: 0.1
Page 16 of 40
INDT/R166B
INDT/R331B
Preliminary Data Sheet
3.1.3
Serial Transmission Cable Termination
Besides the AC coupling capacitors, a dedicated cable termination has to be provided on the receiver input (Figure 3.2).
The termination values have to be matched for the type of cable and length.
3.1.4
Receiver Equalizer
The equalizer inside the receiver device compensates the frequency-dependant cable attenuation. For cable lengths5
above 10m, it is recommended to activate the equalizer function (pin EQ = HIGH) to achieve optimum transmission
performance.
3.1.5
Reference Clock
The internal data clock frequency is 1320 MHz and is generated by internal PLLs. Both, transmitter and receiver require an
external clock oscillator or reference clock of 66.0 MHz with a stability of ± 100 ppm. To enable the INDT/R166 supporting
VESA Standard XGA24, the clock frequency must be 66.6667 MHz. However, the use of 66.6667 MHz clock frequency
disables the transmission of audio data of 44.1 kHz sampling frequency. Transmission of audio data of 48 kHz sampling
frequency is still possible as long as there is sufficient bandwidth left.
3.1.6
VREF Reference Circuitry
The VREF-pin at the transmitter device has two modes to set the threshold level at the input pixel interface. For standard
3.3 V LVTTL input level, it must be tied to VCC (3.3 V). For low swing voltage levels (VDD = 1.0 – 2.0 V), VREF must be tied
to half the supply voltage (VDD/2 = 0.5 – 1.0 V) of the driver (graphics controller). Figure 3.3 shows the input thresholds at
different VREF levels:
VREF MIN
- 0.1
+ 0.1
VREF MAX
- 0.1
+ 0.1
L
L
Low Voltage Swing
0.5 < VREF < 1.0 V
H
H
Voltage [V]
0
0.5
1
1.5
2
L
2.5
3.0
LVTTL
VREF = 3.3 V
H
0.8
3.3
2.0
Figure 3.3: VREF Reference Circuitry
3.2
Power Supply
Each GigaSTaR Digital Display Link chip consists of a separate Bipolar and CMOS die. Therefore, the device provides
6
multiple power planes to minimize EMI. It is suggested to use an own 3.3 V regulator for the whole chip to implement
optimal decoupling of the power supply lines. Table 3.3 shows the current consumption of the devices.
Device
INDT/R166B
INDT/R331B
Die
CMOS
Bipolar
CMOS
Bipolar
7
Typical Current
Consumption [mA]
400
230
400
540
Table 3.3: Current Consumption
5
6
7
Refers to the GORE reference cable GGSC1608-X, other cable types may differ.
Do not use two separate regulators to avoid chip damage due to latch-up.
Depending on video operating modes and external circuitry
Date: 2005-03-14 Revision: 0.1
Page 17 of 40
INDT/R166B
INDT/R331B
Preliminary Data Sheet
Table 3.4 shows, which planes can be tied together.
Pin Name
VCC_CORE
GND_CORE
VCC_IO
GND_IO
VCC_CML
GND_CML
VCC_SX
GND_SX
VCC_IA
GND_IA
VCC_A0
GND_A0
VCC_A1
GND_A1
Type
POWER
GROUND
POWER
GROUND
POWER
GROUND
POWER
GROUND
POWER
GROUND
POWER
GROUND
POWER
GROUND
Description
VCC Plane No.
GND Plane No.
1A
1B
1A
1B
2A
2B
CMOS core supply
CMOS digital I/O
supply
CMOS chip-to-chip
interface supply
CMOS uplink I/O
supply
Bipolar Chip-to-chip
interface supply
Bipolar downlink I/O
supply
4A (1A)
Bipolar PLL supply
8
4B (1B)
2A
2B
3A
3B
3A
3B
Table 3.4: Power Supply Planes
3.3
Absolute Maximum Ratings
The absolute maximum ratings define values beyond which damage may occur to the device. Inova Semiconductors may
not be held liable for any product degradation or damage caused by a violation of the absolute maximum ratings. Exposure
to absolute maximum rating conditions for extended periods may affect device reliability. Functional operation of the device
at these or any other conditions above those indicated in the recommended operating conditions is not guaranteed.
Parameter
DC Supply Voltage
Input Voltage
I/O Current (DC or transient any pin)
Junction Temperature (under bias)
Storage Temperature
Soldering Temp./Time
Static Discharge Voltage
Symbol
VCC
VIN
ID
Tj
Tstg
TSLD / tSLD
VESD1
Min.
-0.5
-0.5
-20
-45
-55
Max.
+4.2
VCC+0.5
+20
+140
+150
220 / 10
± 2000
Units
V
V
mA
°C
°C
° C / sec
V
Note
See keynote (6)
See keynote (6)
Human Body Model
Table 3.5: Absolute Maximum Ratings
3.4
Recommended Operating Conditions
Parameter
DC Supply Voltage
Input Voltage
CML Output Current
CMOS Output Current
Junction Temperature (under bias)
Ambient Temperature
Symbol
VCC
VIN
IOUTCML
IOUTCMOS
Tj
Ta
Min.
+3.15
0
-10
-10
0
-40
Max.
+3.45
Vcc
+10
+10
+125
+85
Units
V
V
mA
mA
°C
°C
Note
Vcc typ. = 3.3 V
VCC =3.3V ± 0.15V
Table 3.6: Recommended Operating Conditions
8
Plane #4 may be connected to plane #1, if this plane is adequately noise-free.
Date: 2005-03-14 Revision: 0.1
Page 18 of 40
INDT/R166B
INDT/R331B
Preliminary Data Sheet
3.5
AC–Characteristics (under recommended operating conditions, Reference Clock Freq. = 66 MHz)
Parameter
Input capacitance, any pin (@ 66 MHz)
Serial Transmission Data Rate (Downstream, per Link)
Serial Bit Width (Downstream)
CMOS Output Rise / Fall Time (CL = 10 pF)
Min.
Typ.
1.5
1.32
757.6
5
Max.
3
Units
pF
Gbit/s
ps
ns
10
Table 3.7: AC–Characteristics
3.6
DC–Characteristics (under recommended operating conditions)
Parameter
CMOS Input High Voltage
CMOS Input Low Voltage
CMOS Input High Current
CMOS Input Low Current
EQLSEL/OSC Pin High Current
EQLSEL/OSC Pin Low Current
CMOS Output High Voltage
CMOS Output Low Voltage
CMOS Output High Current
CMOS Output Low Current
LOCK Output High Current
LOCK Output Low Current
INDT166B Supply Current
Symbol
VIH
VIL
IIH
IIL
IIH
IIL
VOH
VOL
IOH
IOL
ILH
ILL
ICCTX166
INDR166B Supply Current
ICCRX166
INDT331B Supply Current
ICCTX331
INDR331B Supply Current
ICCRX331
Test Condition
Min.
2.6
VIN = Vcc
VIN = 0 V
VIN = Vcc
VIN = 0 V
IOH = -0.5 mA
IOL = 1.5 mA
VOH = 0.9Vcc
VOL = 0.1Vcc
VOH = 0.9Vcc
VOL = 0.1Vcc
CMOS output load = 10 pF
@ Vcc typ. = 3.3 V
CMOS output load = 10 pF
@ Vcc typ. = 3.3 V
CMOS output load = 10 pF
@ Vcc typ. = 3.3 V
CMOS output load = 10 pF
@ Vcc typ. = 3.3 V
Typ.
Max.
-3
3.5
-1
1.5
-
-5
6
-2.5
3
635
675
Unit
V
V
µA
µA
µA
µA
V
V
mA
mA
mA
mA
mA
-
620
665
mA
-
955
985
mA
-
935
975
mA
0.7
1
1
40
10
-1
-1
-10
-10
0,95Vcc
0,05 Vcc
Table 3.8: DC–Characteristics
Note: Floating CMOS inputs can result in excessive supply current. Therefore unused inputs should be tied to Vcc or Gnd.
3.7
Reference Clock Specification (Ta = -40 to 85° C; Vcc = 3.15 to 3.45 V)
Parameter
Nominal Frequency (INDT/R166)
Symbol
fOSC
Nominal Frequency (INDT/R331)
Frequency Tolerance
Duty Cycle
fOSC
FTOL
Min.
Typ.
66.0
Max.
66.0
-100
40
+100
60
Unit
MHz
Note
66,6667 MHz
possible, see 3.1.5
MHz
ppm
%
Table 3.9: Reference Clock Specification
Date: 2005-03-14 Revision: 0.1
Page 19 of 40
INDT/R166B
INDT/R331B
Preliminary Data Sheet
3.8
Timing Specification
(a) Transmitter pixel interface
t1
PCLK+
PX_D[47:0],
PX_DE,
PX_HSYNC,
PX_VSYNC
t2
Figure 3.4: Pixel Interface Timing Diagram At Rising Edge At Tx
Parameter
t1
t2
Description
Pixel data and ctrl signal setup time to pixel clock at Tx
Pixel data and ctrl signal hold time to pixel clock at Tx
Min.
0.5
1.0
Typ.
0.9
1.3
Max.
-
Unit
ns
ns
Table 3.10: Pixel Interface Timing Table At Rising Edge At Tx
t3
PCLK+
PX_D[47:0],
PX_DE,
PX_HSYNC,
PX_VSYNC
t4
Figure 3.5: Pixel Interface Timing Diagram At One Pixel Per Clock At Falling Edge At Tx
Parameter
t3
t4
Description
Pixel data and ctrl signal setup time to pixel clock at Tx
Pixel data and ctrl signal hold time to pixel clock at Tx
Min.
0.5
0.5
Typ.
0.9
1.3
Max.
-
Unit
ns
ns
Table 3.11: Pixel Interface Timing Table At One Pixel Per Clock At Falling Edge At Tx
Date: 2005-03-14 Revision: 0.1
Page 20 of 40
INDT/R166B
INDT/R331B
Preliminary Data Sheet
(b) Receiver pixel interface
t5/6
PX_CLK
PX_D[47:0],
PX_DE,
PX_HSYNC,
PX_VSYNC
t7
Figure 3.6: Pixel Interface Timing Diagram At Rising Edge At Rx
Parameter
t5
t6
t7
Description
Pixel data and ctrl signal setup time to pixel clock at Rx (SXGA)
Pixel data and ctrl signal setup time to pixel clock at Rx (UXGA)
Pixel data and ctrl signal hold time to pixel clock at Rx
Min.
1.8
1.6
0.5
Typ.
4.0
3.0
1.2
Max.
4.4
4.2
1.4
Unit
ns
ns
ns
Max.
4.7
3.7
1.3
Unit
ns
ns
ns
Table 3.12: Pixel Interface Timing Table At Rising Edge At Rx
t8/9
PX_CLK
PX_D[47:0],
PX_DE,
PX_HSYNC,
PX_VSYNC
t10
Figure 3.7: Pixel Interface Timing Diagram At Falling Edge At Rx
Parameter
t8
t9
t10
Description
Pixel data and ctrl signal setup time to pixel clock at Rx (SXGA)
Pixel data and ctrl signal setup time to pixel clock at Rx (UXGA)
Pixel data and ctrl signal hold time to pixel clock at Rx
Min.
2.2
1.0
0.5
Typ.
3.8
2.9
1.2
Table 3.13: Pixel Interface Timing Table At Falling Edge At Rx
Date: 2005-03-14 Revision: 0.1
Page 21 of 40
INDT/R166B
INDT/R331B
Preliminary Data Sheet
(c) Transmitter sideband interface
t11
t13
SB2_CLK
SB2_D[3:0]
t12
t14
Figure 3.8: Tx Sideband Data Interface; Low Speed Downstream
Parameter
t11
t12
t13
t14
Description
Low speed downstream sideband data setup time to clock output at Tx
Low speed downstream sideband data hold time to clock output at Tx
Low speed downstream sideband data clock high time at Tx
Low speed downstream sideband data clock low time at Tx
Min.
40
0
29,3
900
Typ.
200
100
30
909
Max.
31,7
916
Unit
ns
ns
ns
ns
Table 3.14: Tx Sideband Data Interface; Low Speed Downstream
t15
t16
t19
t20
SB3_CLKO
SB3_D[1:0]
SB3_CLKI
t17
t18
Figure 3.9: Tx Sideband Data Interface; High Speed Downstream
Parameter
t15
t16
t17
t18
t19
t20
Description
High speed downstream sideband data setup time to clock output (synchronous
mode) at Tx
High speed downstream sideband data hold time to clock output (synchronous
mode) at Tx
High speed downstream sideband data setup time to clock input (asynchronous
mode) at Tx
High speed downstream sideband data hold time to clock input (asynchronous
mode) at Tx
High speed downstream sideband data clock output high time at Tx
High speed downstream sideband data clock output low time
Min.
6
Typ.
8.6
Max.
-
Unit
ns
0
2.0
-
ns
2
6.0
-
ns
2
1.0
-
ns
6,1
8,6
6.3
9.5
6,5
10,1
ns
ns
Table 3.15: Tx Sideband Data Interface; High Speed Downstream
Date: 2005-03-14 Revision: 0.1
Page 22 of 40
INDT/R166B
INDT/R331B
Preliminary Data Sheet
t21
t24
SB0_CLK
SB0_D[3:0]
t22
t23
Figure 3.10: Tx Sideband Data Interface; Low Speed Upstream
Parameter
t21
t22
t23
t24
Description
Low speed upstream sideband data setup time to clock output at Tx
Low speed upstream sideband data hold time to clock output at Tx
Low speed upstream sideband data clock high time at Tx
Low speed upstream sideband data clock low time at Tx
Min.
420
520
532
430
Typ.
430
530
534
435
Max.
440
540
536
442
Unit
ns
ns
ns
ns
Max.
11,5
6,0
11,5
10,2
Unit
ns
ns
ns
ns
Table 3.16: Tx Sideband Data Interface; Low Speed Upstream
t25
t28
SB1_CLK
SB1_D[1:0]
t26
t27
Figure 3.11: Tx Sideband Data Interface; High Speed Upstream
Parameter
t25
t26
t27
t28
Description
High speed upstream sideband data setup time to clock output at Tx
High speed upstream sideband data hold time to clock output at Tx
High speed upstream sideband data clock high time at Tx
High speed upstream sideband data clock low time at Tx
Table 3.17:
Date: 2005-03-14 Revision: 0.1
Min.
9,4
4,4
9,6
3,8
Typ.
10,2
5.5
10.5
9.7
Tx Sideband Data Interface; High Speed Upstream
Page 23 of 40
INDT/R166B
INDT/R331B
Preliminary Data Sheet
(d) Receiver sideband interface
t29
t31
SB2_CLK
SB2_D[3:0]
t30
t32
Figure 3.12: Rx Sideband Data Interface; Low Speed Downstream
Parameter
t29
t30
t31
t32
Description
Low speed downstream sideband data setup time to clock output at Rx
Low speed downstream sideband data hold time to clock output at Rx
Low speed downstream sideband data clock high time at Rx
Low speed downstream sideband data clock low time at Rx
Min.
478
450
450
480
Typ.
484
455
454
484
Max.
490
460
458
490
Unit
ns
ns
ns
ns
Max.
6,4
8,4
11,1
6,8
Unit
ns
ns
ns
ns
Table 3.18: Rx Sideband Data Interface; Low Speed Downstream
t33
t35
SB3_CLK
SB3_D[1:0]
t34
t36
Figure 3.13: Rx Sideband Data Interface; High Speed Downstream
Parameter
t33
t34
t35
t36
Description
High speed downstream sideband data setup time to clock output at Rx
High speed downstream sideband data hold time to clock output at Rx
High speed downstream sideband data clock high time at Rx
High speed downstream sideband data clock low time at Rx
Min.
5,5
7,2
9,8
5,5
Typ.
6.0
7,5
10.6
6.4
Table 3.19: Rx Sideband Data Interface; High Speed Downstream
Date: 2005-03-14 Revision: 0.1
Page 24 of 40
INDT/R166B
INDT/R331B
Preliminary Data Sheet
t37
t39
SB0_CLK
SB0_D[3:0]
t38
t40
Figure 3.14: Rx Sideband Data Interface; Low Speed Upstream
Parameter
t37
t38
t39
t40
Description
Low speed upstream sideband data setup time to clock output at Rx
Low speed upstream sideband data hold time to clock output at Rx
Low speed upstream sideband data clock high time at Rx
Low speed upstream sideband data clock low time at Rx
Min.
20
0
47,9
912
Typ.
100
10
48,8
922
Max.
49,7
932
Unit
ns
ns
ns
ns
Unit
ns
Table 3.20: Rx Sideband Data Interface; Low Speed Upstream
t41
t42
t45
t46
SB1_CLKO
SB1_D[1:0]
SB1_CLKI
t43
t44
Figure 3.15: Rx Sideband Data Interface; High Speed Upstream
Parameter
t41
t42
t43
t44
t45
t46
Description
High speed upstream sideband data setup time to clock output
(synchronous mode) at Rx
High speed upstream sideband data hold time to clock output
(synchronous mode) at Rx
High speed upstream sideband data setup time to clock output
(asynchronous mode) at Rx
High speed upstream sideband data hold time to clock output
(asynchronous mode) at Rx
High speed upstream sideband data clock high time at Rx
High speed upstream sideband data clock low time at Rx
Min.
4,0
Typ.
6,0
Max.
-
0
1,0
-
0
2,5
ns
1,0
2,5
ns
7,2
9,7
10,1
10,1
11,3
10,6
ns
ns
ns
Table 3.21: Rx Sideband Data Interface; High Speed Upstream
Date: 2005-03-14 Revision: 0.1
Page 25 of 40
INDT/R166B
INDT/R331B
Preliminary Data Sheet
t49
RESET#
CFG_CYC
CFG_SEL[3:0]
0000
CFG_D[3:0]
0001
0000
cfg0
t47
0010
cfg1
t48
0000
0100
0000
cfg2
1000
0000
cfg3
configuration data
sideband data
Figure 3.16: Configuration Interface Timing
Parameter
t47
t48
t49
Description
Configuration Select High Phase
Configuration Select High to Configuration Data valid
Configuration data valid after Configuration Select high to low
transition
Min.
-
Typ.
350
100
0
Max.
-
Unit
ns
ns
ns
Table 3.22: Configuration Interface Timing
Date: 2005-03-14 Revision: 0.1
Page 26 of 40
Preliminary Data Sheet
INDT/R166B
INDT/R331B
4 Signals
4.1
INDT166B Transmitter Signal Description
Pin Name
Link Interface
TX0+
TX0–
RX2+
RX2–
LOCK0
SYNC2
Pixel Interface
PX_CLK+
PX_CLK–
PX_D[47:0]
PX_HSYNC
PX_VSYNC
PX_DE
VREF
Sideband Interface
Pin
Dir
Type
Description
B8
B9
A5
A4
B6
B2
OUT
OUT
IN
IN
OUT
OUT
CML
CML
CML
CML
LVTTL
LVTTL
Lock Indicator. HIGH when PLL of Downlink is properly locked
HIGH when the Uplink is frame synchronous
K14
J14
(see Table
4.3)
J13
H13
H14
G13
IN
IN
LVTTL*
LVTTL*
Pixel clock 24 – 161 MHz, diff + or single-ended
Pixel clock 24 – 161 MHz, diff – pull to GND in single ended mode
IN
LVTTL*
Configurable parallel pixel data interface
IN
IN
IN
IN
LVTTL*
LVTTL*
LVTTL*
A
Pixel data framing – Horizontal sync pulse (active HIGH)
Pixel data framing – Vertical sync pulse (active HIGH)
Pixel data framing – Data enable (active HIGH)
Configures the input level of the pixel interface
A13
OUT
LVTTL
A11,B11,A
12,B12
OUT
LVTTL
Serial Data Output (Downlink)
Serial Data Input (Uplink)
C13
OUT
LVTTL
A14,B14,B
13,C14
IN
LVTTL
SB3_CLKI
G14
IN
LVTTL
SB3_CLKO
F13
OUT
LVTTL
E13,F14
IN
LVTTL
Sideband Data Channel 0 Upstream Synchronous Clock Output. Data is
provided aligned to rising edge.
If CFG_CYC=0: Sideband Data Channel 0 Upstream Output
If CFG_CYC=1: Configuration vector output
Sideband Data Channel 1 Upstream Synchronous Clock Output. Data is
provided aligned to rising edge.
Sideband Data Channel 1 Upstream Output
Sideband Data Channel 2 Downstream Synchronous Clock Output. Data is
registered at rising edge.
If CFG_CYC=0: Sideband Data Channel 2 Downstream Input
If CFG_CYC=1: Configuration data input
Sideband Data Channel 3 Downstream Asynchronous Clock Input. Data is
registered at rising edge.
Sideband Data Channel 3 Downstream Synchronous Clock Output. Data is
registered at rising edge.
Sideband Data Channel 3 Downstream Input
C2
C1
D2
D1
IN
IN
IN
IN
LVTTL
LVTTL
LVTTL
LVTTL
S/P-DIF Audio Channel 0
S/P-DIF Audio Channel 1
S/P-DIF Audio Channel 2
S/P-DIF Audio Channel 3
B3
A2
A1
A6
C11
C12
B1
IN
OUT
OUT
IN
IN
IN
–
LVTTL
LVTTL
LVTTL
LVTTL
A
A
–
Asynchronous Hardware Reset (active LOW)
Pixel Buffer Overrun
Indicates that the configuration process is active
Reference Oscillator Input (see chapter 3.7)
Loop filter pin of Downlink
Loop filter pin of Downlink
Not connected
SB0_CLK
SB0_D[3:0]
(CFG_SEL[3:0])
SB1_CLK
SB1_D[1:0]
SB2_CLK
SB2_D[3:0]
(CFG_D[3:0])
SB3_D[1:0]
Audio Interface
AI_C0
AI_C1
AI_C2
AI_C3
Other Signals
RESET#
ERROR
CFG_CYC
OSC
CAP1
CAP2
NC
E14
OUT
LVTTL
D14,D13
OUT
LVTTL
Table 4.1: INDT166B Transmitter Signals
* Configurable to LVTTL or Low Voltage Swing via VREF-pin
Date: 2005-03-14 Revision: 0.1
Page 27 of 40
INDT/R166B
INDT/R331B
Preliminary Data Sheet
Pin Name
Pin
Power Supply
C3,D3,E4,G7,G8,G10,H3,H8,J3,J4,J8,J11,L5,L6,L10,M3,M8,M11,
VCC_CORE
M12
D5,E5,E11,F4,F6,F11,G4,G6,H5,H6,H10,H12,J10,K3,K7,K8,K11,
GND_CORE
L3,L11,M9
C4,D4,E2,E3,G9,G11,H4,H7,H11,J7,J12,K5,K6,K9,K10,L9,L12,M4,
VCC_IO
M7
A3,C5,E12,F3,F5,F12,G3,G5,G12,H9,J5,J6,J9,K4,K12,L4,L7,L8,M5,
GND_IO
M6,M10
VCC_CML
F7,F8
GND_CML
F9,F10
VCC_SX
B4
GND_SX
B5
VCC_IA
E8,E10
GND_IA
E7,E9
VCC_A0
A7,A10,C6,C7,C10,D6,D12
GND_A0
A8,A9,B7,B10,C8,C9,D11,E6
VCC_A1
D9,D10
GND_A1
D7,D8
Dir
Type
IN
POWER
IN
GROUND
IN
POWER
IN
GROUND
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
POWER
GROUND
POWER
GROUND
POWER
GROUND
POWER
GROUND
POWER
GROUND
Description
CMOS core supply
CMOS digital I/O
supply
CMOS chip-to-chip
interface supply
CMOS uplink I/O
supply
Bipolar Chip-to-chip
interface supply
Bipolar downlink I/O
supply
Bipolar PLL supply
Table 4.2: INDT166B Transmitter Power Supply
Pin Name
PX_D47
PX_D46
PX_D45
PX_D44
PX_D43
PX_D42
PX_D41
PX_D40
PX_D39
PX_D38
PX_D37
PX_D36
Pin
K13
L14
L13
M14
M13
N14
N13
P14
P13
P12
N12
P11
Pin Name
PX_D35
PX_D34
PX_D33
PX_D32
PX_D31
PX_D30
PX_D29
PX_D28
PX_D27
PX_D26
PX_D25
PX_D24
Pin
N11
P10
N10
P9
N9
P8
N8
P7
N7
P6
N6
P5
Pin Name
PX_D23
PX_D22
PX_D21
PX_D20
PX_D19
PX_D18
PX_D17
PX_D16
PX_D15
PX_D14
PX_D13
PX_D12
Pin
N5
P4
N4
P3
N3
P2
P1
N1
N2
M1
M2
L1
Pin Name
PX_D11
PX_D10
PX_D9
PX_D8
PX_D7
PX_D6
PX_D5
PX_D4
PX_D3
PX_D2
PX_D1
PX_D0
Pin
L2
K1
K2
J1
J2
H1
H2
G1
G2
F1
F2
E1
Table 4.3: INDT166B Transmitter Pixel Data Pin Numbers
4.2
INDR166B Receiver Signal Description
Pin Name
Link Interface
RX0+
RX0–
TX2+
TX2–
LOCK0
SYNC0
EQ
Pixel Interface
PX_CLK
PX_CLK_IN
PX_CLK_OUT
PX_D[47:0]
PX_HSYNC
PX_VSYNC
PX_DE
Sideband Interface
SB0_CLK
SB0_D[3:0]
(CFG_D[3:0])
Pin
Dir
Type
B8
B9
A5
A4
B6
B2
C5
IN
IN
OUT
OUT
OUT
OUT
IN
CML
CML
CML
CML
LVTTL
LVTTL
LVTTL
Lock Indicator. HIGH when PLL of Downlink is properly locked
High, when the Downlink is frame synchronous
Selects the Downlink equalizer (LOW=OFF; HIGH=ON)
J14
A3
H14
(see Table
4.6)
G13
H13
J13
OUT
IN
OUT
LVTTL
LVTTL
LVTTL
Pixel clock 24 – 161 MHz,
Pixel clock 24 – 161 MHz, de-jitter feedback
Pixel clock 24 – 161 MHz, de-jitter feedback
OUT
LVTTL
Configurable parallel pixel data interface
OUT
OUT
OUT
LVTTL
LVTTL
LVTTL
Pixel data framing – Horizontal sync pulse (active HIGH)
Pixel data framing – Vertical sync pulse (active HIGH)
Pixel data framing – Data enable (active HIGH)
A13
OUT
LVTTL
A11,B11,A
12,B12
IN
LVTTL
Date: 2005-03-14 Revision: 0.1
Description
Serial Data Input (Downlink 0)
Serial Data Output (Uplink)
Sideband Data Channel 0 Upstream Synchronous Clock Output. Data is
registered at rising edge.
If CFG_CYC=0: Sideband Data Channel 0 Upstream Input
If CFG_CYC=1: Configuration data input
Page 28 of 40
INDT/R166B
INDT/R331B
Preliminary Data Sheet
Pin Name
Pin
Dir
Type
SB1_CLKI
E13
IN
LVTTL
SB1_CLKO
E14
OUT
LVTTL
SB1_D[1:0]
D14,D13
IN
LVTTL
SB2_CLK
SB2_D[3:0]
(CFG_SEL[3:0])
SB3_CLK
SB3_D[1:0]
Audio Interface
AI_C0
AI_C1
AI_C2
AI_C3
Other Signals
RESET#
ERROR
CFG_CYC
OSC
CAP1
CAP2
NC
C13
OUT
LVTTL
A14,B14,B
13,C14
OUT
LVTTL
G14
OUT
LVTTL
F14,F13
OUT
LVTTL
Description
Sideband Data Channel 1 Upstream Asynchronous Clock Input. Data is
registered at rising edge.
Sideband Data Channel 1 Upstream Synchronous Clock Output. Data is
registered at rising edge.
Sideband Data Channel 1 Upstream Input
Sideband Data Channel 2 Downstream Synchronous Clock Output. Data is
provided aligned to rising edge.
If CFG_CYC=0: Sideband Data Channel 2 Downstream Output
If CFG_CYC=1: Configuration vector output
Sideband Data Channel 3 Downstream Synchronous Clock Output. Data is
provided aligned to rising edge.
Sideband Data Channel 3 Downstream Output
C2
C1
D2
D1
OUT
OUT
OUT
OUT
LVTTL
LVTTL
LVTTL
LVTTL
S/P-DIF Audio Channel 0
S/P-DIF Audio Channel 1
S/P-DIF Audio Channel 2
S/P-DIF Audio Channel 3
B3
A2
A1
A6
C11
C12
B1
IN
OUT
OUT
IN
IN
IN
–
LVTTL
LVTTL
LVTTL
LVTTL
A
A
–
Asynchronous Hardware Reset (active LOW)
Pixel Clock Recovery Error
Indicates that the configuration process is active
Reference Oscillator Input (see chapter 3.7)
Loop filter pin of Downlink
Loop filter pin of Downlink
Not connected
Table 4.4: INDR166B Receiver Signals
Pin Name
Pin
Power Supply
VCC_CORE C3,E3,G8,G10,J3,J4,J7,J11,L5,L6,L10,M8,M11
GND_CORE E4,E11,F4,F11,F12,G4,G6,H6,H10,J10,K8,K11,L3,L8,M9
C4,D3,D4,E2,F2,G7,G9,G11,H3,H4,H7,H8,H11,J8,J12,K5,K6,K9,
VCC_IO
K10,L9,L12,M3,M4,M7,M12
D5,E5,E12,F3,F5,F6,G3,G5,G12,H5,H9,H12,J5,J6,J9,K3,K4,K7,
GND_IO
K12,L4,L7,L11,M5,M6,M10
VCC_CML
F7,F8
GND_CML
F9,F10
VCC_SX
B4
GND_SX
B5
VCC_IA
E8,E10
GND_IA
E7,E9
VCC_A0
A7,A10,C6,C7,C10,D6,D12
GND_A0
A8,A9,B7,B10,C8,C9,D11,E6
VCC_A1
D9,D10
GND_A1
D7,D8
Dir
Type
IN
IN
POWER
GROUND
IN
POWER
IN
GROUND
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
POWER
GROUND
POWER
GROUND
POWER
GROUND
POWER
GROUND
POWER
GROUND
Description
CMOS core supply
CMOS digital I/O
supply
CMOS chip-to-chip
interface supply
CMOS uplink I/O
supply
Bipolar Chip-to-chip
interface supply
Bipolar downlink I/O
supply
Bipolar PLL supply
Table 4.5: INDR166B Receiver Power Supply
Pin Name
PX_D47
PX_D46
PX_D45
PX_D44
PX_D43
PX_D42
PX_D41
PX_D40
PX_D39
PX_D38
PX_D37
PX_D36
Pin
K14
K13
L14
L13
M14
M13
N14
N13
P14
P13
P12
N12
Pin Name
PX_D35
PX_D34
PX_D33
PX_D32
PX_D31
PX_D30
PX_D29
PX_D28
PX_D27
PX_D26
PX_D25
PX_D24
Pin
P11
N11
P10
N10
P9
N9
P8
N8
P7
N7
P6
N6
Pin Name
PX_D23
PX_D22
PX_D21
PX_D20
PX_D19
PX_D18
PX_D17
PX_D16
PX_D15
PX_D14
PX_D13
PX_D12
Pin
P5
N5
P4
N4
P3
N3
P2
P1
N1
N2
M1
M2
Pin Name
PX_D11
PX_D10
PX_D9
PX_D8
PX_D7
PX_D6
PX_D5
PX_D4
PX_D3
PX_D2
PX_D1
PX_D0
Pin
L1
L2
K1
K2
J1
J2
H1
H2
G1
G2
F1
E1
Table 4.6: INDR166B Receiver Pixel Data Pin Numbers
Date: 2005-03-14 Revision: 0.1
Page 29 of 40
Preliminary Data Sheet
4.3
INDT/R166B
INDT/R331B
INDT331B Transmitter Signal Description
Pin Name
Link Interface
TX0+
TX0–
TX1+
TX1–
RX2+
RX2–
LOCK0
LOCK1
SYNC2
Pixel Interface
PX_CLK+
PX_CLK–
Pin
Dir
Type
B12
B13
B5
B6
A10
A9
B10
B3
C2
OUT
OUT
OUT
OUT
IN
IN
OUT
OUT
OUT
CML
CML
CML
CML
CML
CML
LVTTL
LVTTL
LVTTL
Lock Indicator 0. HIGH when PLL of Downlink 0 is properly locked
Lock Indicator 1. HIGH when PLL of Downlink 1 is properly locked
HIGH when the Uplink is frame synchronous
T18
R18
(see Table
4.9)
R17
P18
P17
N18
IN
IN
LVTTL*
LVTTL*
Pixel clock 24 – 161 MHz, diff + or single-ended
Pixel clock 24 – 161 MHz, diff – pull to GND in single ended mode
IN
LVTTL*
Configurable parallel pixel data interface
IN
IN
IN
IN
LVTTL*
LVTTL*
LVTTL*
A
Pixel data framing – Horizontal sync pulse (active HIGH)
Pixel data framing – Vertical sync pulse (active HIGH)
Pixel data framing – Data enable (active HIGH)
Configures the input level of the pixel interface
C18
OUT
LVTTL
A16,A17,A
18,B18
OUT
LVTTL
G18
OUT
LVTTL
F18,F17
OUT
LVTTL
E17
OUT
LVTTL
C17,D18,
D17,E18
IN
LVTTL
J18
IN
LVTTL
SB3_CLKO
H17
OUT
LVTTL
SB3_D[1:0]
G17,H18
IN
LVTTL
SB4_CLKI
N17
IN
LVTTL
PX_D[47:0]
PX_HSYNC
PX_VSYNC
PX_DE
VREF
Sideband Interface
SB0_CLK
SB0_D[3:0]
(CFG_SEL[3:0])
SB1_CLK
SB1_ D[1:0]
SB2_CLK
SB2_D[3:0]
(CFG_D[3:0])
SB3_CLKI
SB4_CLKO
SB4_D[1:0]
Audio Interface
AI_C0
AI_C1
AI_C2
AI_C3
Other Signals
RESET#
ERROR
CFG_CYC
OSC
CAP1
CAP2
CAP3
CAP4
NC
Description
Serial Data Output (Downlink 0)
Serial Data Output (Downlink 1)
Serial Data Input (Uplink)
M18
OUT
LVTTL
K18,L18
IN
LVTTL
Sideband Data Channel 0 Upstream Synchronous Clock Output. Data is
provided aligned to rising edge.
If CFG_CYC=0: Sideband Data Channel 0 Upstream Output
If CFG_CYC=1: Configuration vector output
Sideband Data Channel 1 Upstream Synchronous Clock Output. Data is
provided aligned to rising edge.
Sideband Data Channel 1 Upstream Output
Sideband Data Channel 2 Downstream Synchronous Clock Output. Data is
registered at rising edge.
If CFG_CYC=0: Sideband Data Channel 2 Downstream Input
If CFG_CYC=1: Configuration data input
Sideband Data Channel 3 Downstream Asynchronous Clock Input. Data is
registered at rising edge.
Sideband Data Channel 3 Downstream Synchronous Clock Output. Data is
registered at rising edge.
Sideband Data Channel 3 Downstream Input
Sideband Data Channel 4 Downstream Asynchronous Clock Input. Data is
registered at rising edge.
Sideband Data Channel 4 Downstream Synchronous Clock Output. Data is
registered at rising edge.
Sideband Data Channel 1 Downstream Input
D2
D1
E1
F1
IN
IN
IN
IN
LVTTL
LVTTL
LVTTL
LVTTL
S/P-DIF Audio Channel 0
S/P-DIF Audio Channel 1
S/P-DIF Audio Channel 2
S/P-DIF Audio Channel 3
A2
B2
B1
A3
A15
B15
A8
B8
C1
IN
OUT
OUT
IN
IN
IN
IN
IN
–
LVTTL
LVTTL
LVTTL
LVTTL
A
A
A
A
–
Asynchronous Hardware Reset. Active LOW
Pixel Buffer Overrun
Indicates that the configuration process is active
Reference Oscillator Input (see chapter 3.7)
Loop filter pin Downlink 0
Loop filter pin Downlink 0
Loop filter pin Downlink 1
Loop filter pin Downlink 1
Not connected
Table 4.7: INDT331B Transmitter Signals
* Configurable to LVTTL or Low Voltage Swing via VREF-pin
Date: 2005-03-14 Revision: 0.1
Page 30 of 40
INDT/R166B
INDT/R331B
Preliminary Data Sheet
Pin Name
Pin
Power Supply
G3,G4,G9,G12,H4,J4,J8,J12,J15,J16,J17,L6,L10,L14,N2,N3,N4,N8,
VCC_CORE
N12,R6,R10,R14,T6,T10,T14
F2,G7,G13,G14,H6,H10,H14,J2,J3,K2,K4,K8,K12,K15,K16,K17,L2,
GND_CORE
M6,M10,M14,P4,P8,P12,P15,P16,T3,T4
G2,G5,G8,G10,G11,G15,G16,H2,H3,H7,H8,H11,H12,H15,H16,J7,
J11,K5,K6,K9,K10,K13,K14,L5,L9,L13,M2,M3,M4,M7,M8,M11,M12,
VCC_IO
M15,M16,M17,N7,N11,N15,N16,P5,P6,P9,P10,P13,P14,R5,R9,
R13,T5,T9,T13
A1,B16,B17,C16,D9,D16,E2,E3,E9,E15,E16,F3,F8,F9,F10,F15,F16,
G6,H5,H9,H13,J5,J6,J9,J10,J13,J14,K3,K7,K11,L3,L4,L7,L8,L11,
GND_IO
L12,L15,L16,L17,M5,M9,M13,N5,N6,N9,N10,N13,N14,P3,P7,P11,
R3,R4,R7,R8,R11,R12,R15,R16,T2,T7,T8,T11,T12,T15,T16,U2
VCC_CML
F4,F5,F11,F12
GND_CML
F6,F7,F13,F14
VCC_SX
B9
GND_SX
C9
VCC_IA
E6,E8,E12,E14
GND_IA
E5,E7,E11,E13
VCC_A0
A4,A7,A11,A14,C3,C4,C8,C10,C11,C15,D3,D8,D10,D15
GND_A0
A5,A6,A12,A13,B4,B7,B11,B14,C5,C6,C7,C12,C13,C14,E4,E10
VCC_A1
D6,D7,D13,D14
GND_A1
D4,D5,D11,D12
Dir
Type
IN
POWER
IN
GROUND
IN
POWER
Description
CMOS core supply
CMOS digital I/O
supply
IN
GROUND
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
POWER
GROUND
POWER
GROUND
POWER
GROUND
POWER
GROUND
POWER
GROUND
CMOS chip-to-chip
interface supply
CMOS uplink I/O
supply
Bipolar Chip-to-chip
interface supply
Bipolar downlink I/O
supply
Bipolar PLL supply
Table 4.8: INDT331B Transmitter Power Supply
Pin Name
PX_D47
PX_D46
PX_D45
PX_D44
PX_D43
PX_D42
PX_D41
PX_D40
PX_D39
PX_D38
PX_D37
PX_D36
Pin
T17
U18
U17
V18
V17
V16
U16
V15
U15
V14
U14
V13
Pin Name
PX_D35
PX_D34
PX_D33
PX_D32
PX_D31
PX_D30
PX_D29
PX_D28
PX_D27
PX_D26
PX_D25
PX_D24
Pin
U13
V12
U12
V11
U11
V10
U10
V9
U9
V8
U8
V7
Pin Name
PX_D23
PX_D22
PX_D21
PX_D20
PX_D19
PX_D18
PX_D17
PX_D16
PX_D15
PX_D14
PX_D13
PX_D12
Pin
U7
V6
U6
V5
U5
V4
U4
V3
U3
V2
V1
U1
Pin Name
PX_D11
PX_D10
PX_D9
PX_D8
PX_D7
PX_D6
PX_D5
PX_D4
PX_D3
PX_D2
PX_D1
PX_D0
Pin
T1
R1
R2
P1
P2
N1
M1
L1
K1
J1
H1
G1
Table 4.9: INDT331B Transmitter Pixel Data Pin Numbers
Date: 2005-03-14 Revision: 0.1
Page 31 of 40
Preliminary Data Sheet
4.4
INDT/R166B
INDT/R331B
INDR331B Receiver Signal Description
Pin Name
Link Interface
RX0+
RX0–
RX1+
RX1–
TX2+
TX2–
LOCK0
LOCK1
SYNC0
SYNC1
EQ
Pixel Interface
PX_CLK
PX_CLK_IN
PX_CLK_OUT
Pin
Dir
Type
B12
B13
B5
B6
A10
A9
B10
B3
C1
D1
A2
IN
IN
IN
IN
OUT
OUT
OUT
OUT
OUT
OUT
IN
CML
CML
CML
CML
CML
CML
LVTTL
LVTTL
LVTTL
LVTTL
LVTTL
Lock Indicator 0. HIGH when PLL of Downlink 0 is properly locked
Lock Indicator 1. HIGH when PLL of Downlink 1 is properly locked
HIGH when the Downlink 0 is frame synchronous
HIGH when the Downlink 1 is frame synchronous
Selects the Downlink equalizer (LOW=OFF; HIGH=ON)
R18
B2
P18
(see Table
4.12)
N18
N17
P17
OUT
IN
OUT
LVTTL
LVTTL
LVTTL
Pixel clock 24 – 161 MHz,
Pixel clock 24 – 161 MHz, de-jitter feedback
Pixel clock 24 – 161 MHz, de-jitter feedback
OUT
LVTTL
Configurable parallel pixel data interface
OUT
OUT
OUT
LVTTL
LVTTL
LVTTL
Pixel data framing – Horizontal sync pulse (active HIGH)
Pixel data framing – Vertical sync pulse (active HIGH)
Pixel data framing – Data enable (active HIGH)
C18
OUT
LVTTL
A16,A17,A
18,B18
IN
LVTTL
SB1_CLKI
G17
IN
LVTTL
SB1_CLKO
G18
OUT
LVTTL
SB1_ D[1:0]
F18,F17
IN
LVTTL
E17
OUT
LVTTL
C17,D18,
D17,E18
OUT
LVTTL
M18
OUT
LVTTL
K18,L18
OUT
LVTTL
J18
OUT
LVTTL
H18,H17
OUT
LVTTL
Sideband Data Channel 0 Upstream Synchronous Clock Output. Data is
registered at rising edge.
If CFG_CYC=0: Sideband Data Channel 0 Upstream Input
If CFG_CYC=1: Configuration data input
Sideband Data Channel 1 Upstream Asynchronous Clock Input. Data is
registered at rising edge.
Sideband Data Channel 1 Upstream Synchronous Clock Output. Data is
registered at rising edge.
Sideband Data Channel 1 Upstream Input
Sideband Data Channel 2 Downstream Synchronous Clock Output. Data is
provided aligned to rising edge.
If CFG_CYC=0: Sideband Data Channel 2 Downstream Output
If CFG_CYC=1: Configuration vector output
Sideband Data Channel 3 Downstream Synchronous Clock Output. Data is
provided aligned to rising edge.
Sideband Data Channel 3 Downstream Output
Sideband Data Channel 4 Downstream Synchronous Clock Output. Data is
provided aligned to rising edge.
Sideband Data Channel 4 Downstream Output
E1
F1
G1
H1
OUT
OUT
OUT
OUT
LVTTL
LVTTL
LVTTL
LVTTL
S/P-DIF Audio Channel 0
S/P-DIF Audio Channel 1
S/P-DIF Audio Channel 2
S/P-DIF Audio Channel 3
A1
B1
C2
A3
A15
B15
A8
B8
IN
OUT
OUT
IN
IN
IN
IN
IN
LVTTL
LVTTL
LVTTL
LVTTL
A
A
A
A
Asynchronous Hardware Reset (active LOW)
Pixel Clock Recovery Error
Indicates that the configuration process is active
Reference Oscillator Input (see chapter 3.7)
Loop filter pin Downlink 0
Loop filter pin Downlink 0
Loop filter pin Downlink 1
Loop filter pin Downlink 1
PX_D[47:0]
PX_HSYNC
PX_VSYNC
PX_DE
Sideband Interface
SB0_CLK
SB0_D[3:0]
(CFG_D[3:0])
SB2_CLK
SB2_D[3:0]
(CFG_SEL[3:0])
SB3_CLK
SB3_D[1:0]
SB4_CLK
SB4_D[1:0]
Audio Interface
AI_C0
AI_C1
AI_C2
AI_C3
Other Signals
RESET#
ERROR
CFG_CYC
OSC
CAP1
CAP2
CAP3
CAP4
Description
Serial Data Input (Downlink 0)
Serial Data Input (Downlink 1)
Serial Data Output (Uplink)
Table 4.10: INDR331B Receiver Signals
Date: 2005-03-14 Revision: 0.1
Page 32 of 40
INDT/R166B
INDT/R331B
Preliminary Data Sheet
Pin Name
Pin
Power Supply
G4,G9,G12,H3,H4,J3,J4,J8,J12,J15,J16,J17,L6,L10,L14,N3,N4,N8,
VCC_CORE
N12,R6,R10,R14,T6,T10,T14
E3,F15,G7,G13,H6,H10,H14,K3,K4,K8,K12,K15,K16,K17,L3,L4,M6,
GND_CORE
M10,M14,P4,P8,P12,P15,P16,R4,R16,T4
G2,G3,G5,G8,G10,G11,G15,G16,H2,H7,H8,H11,H12,H15,H16,J2,
VCC_IO
J7,J11,K5,K6,K9,K10,K13,K14,L5,L9,L13,M3,M4,M7,M8,M11,M12,M15,M16
,M17,N2,N7,N11,N15,N16,P5,P6,P9,P10,P13,P14,R5,R9,R13,T5,T9,T13
B16,B17,C16,D2,D9,D16,E2,E9,E15,E16,F2,F3,F8,F9,F10,F16,
G6,G14,H5,H9,H13,J5,J6,J9,J10,J13,J14,K2,K7,K11,L2,L7,L8,L11,
GND_IO
L12,L15,L16,L17,M2,M5,M9,M13,N5,N6,N9,N10,N13,N14,P3,P7,
P11,R3,R7,R8,R11,R12,R15,T2,T3,T7,T8,T11,T12,T15,T16,U2
VCC_CML
F4,F5,F11,F12
GND_CML
F6,F7,F13,F14
VCC_SX
B9
GND_SX
C9
VCC_IA
E6,E8,E12,E14
GND_IA
E5,E7,E11,E13
VCC_A0
A4,A7,A11,A14,C3,C4,C8,C10,C11,C15,D3,D8,D10,D15
GND_A0
A5,A6,A12,A13,B4,B7,B11,B14,C5,C6,C7,C12,C13,C14,E4,E10
VCC_A1
D6,D7,D13,D14
GND_A1
D4,D5,D11,D12
Dir
Type
IN
POWER
IN
GROUND
IN
POWER
Description
CMOS core supply
CMOS digital I/O
supply
IN
GROUND
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
POWER
GROUND
POWER
GROUND
POWER
GROUND
POWER
GROUND
POWER
GROUND
CMOS chip-to-chip
interface supply
CMOS uplink I/O
supply
Bipolar Chip-to-chip
interface supply
Bipolar downlink I/O
supply
Bipolar PLL supply
Table 4.11: INDR331B Receiver Power Supply
Pin Name
PX_D47
PX_D46
PX_D45
PX_D44
PX_D43
PX_D42
PX_D41
PX_D40
PX_D39
PX_D38
PX_D37
PX_D36
Pin
R17
T18
T17
U18
U17
V18
V17
V16
U16
V15
U15
V14
Pin Name
PX_D35
PX_D34
PX_D33
PX_D32
PX_D31
PX_D30
PX_D29
PX_D28
PX_D27
PX_D26
PX_D25
PX_D24
Pin
U14
V13
U13
V12
U12
V11
U11
V10
U10
V9
U9
V8
Pin Name
PX_D23
PX_D22
PX_D21
PX_D20
PX_D19
PX_D18
PX_D17
PX_D16
PX_D15
PX_D14
PX_D13
PX_D12
Pin
U8
V7
U7
V6
U6
V5
U5
V4
U4
V3
U3
V2
Pin Name
PX_D11
PX_D10
PX_D9
PX_D8
PX_D7
PX_D6
PX_D5
PX_D4
PX_D3
PX_D2
PX_D1
PX_D0
Pin
V1
U1
T1
R1
R2
P1
P2
N1
M1
L1
K1
J1
Table 4.12: INDR331B Receiver Pixel Data Pin Numbers
Date: 2005-03-14 Revision: 0.1
Page 33 of 40
INDT/R166B
INDT/R331B
Preliminary Data Sheet
5 Pin Assignment
5.1
INDT166B Transmitter
2
3
A
CFG_
CYC
1
ERROR
GND_
IO
4
RX2-
B
NC
SYNC2
RESET#
C
AI_C1
AI_C0
D
AI_C3
E
5
6
7
8
9
10
11
12
13
14
RX2+
OSC
VCC_
A0
GND_
A0
GND_
A0
VCC_
A0
SB0_
D3
SB0_
D1
SB0_
CLK
SB2_
D3
VCC_
SX
GND_
SX
LOCK0
GND_
A0
TX0+
TX0-
GND_
A0
SB0_
D2
SB0_
D0
SB2_
D1
SB2_
D2
VCC_
CORE
VCC_
IO
GND_
IO
VCC_
A0
VCC_
A0
GND_
A0
GND_
A0
VCC_
A0
CAP1
CAP2
SB2_
CLK
SB2_
D0
AI_C2
VCC_
CORE
VCC_
IO
GND_
CORE
VCC_
A0
GND_
A1
GND_
A1
VCC_
A1
VCC_
A1
GND_
A0
VCC_
A0
SB1_
D0
SB1_
D1
PX_D0
VCC_
IO
VCC_
IO
VCC_
CORE
GND_
CORE
GND_
A0
GND_
IA
VCC_
IA
GND_
IA
VCC_
IA
GND_
CORE
GND_
IO
SB3_
D1
SB1_
CLK
F
PX_D2
PX_D1
GND_
IO
GND_
CORE
GND_
IO
GND_
CORE
VCC_
CML
VCC_
CML
GND_
CML
GND_
CML
GND_
CORE
GND_
IO
SB3_
CLKO
SB3_
D0
G
PX_D4
PX_D3
GND_
IO
GND_
CORE
GND_
IO
GND_
CORE
VCC_
CORE
VCC_
CORE
VCC_
IO
VCC_
CORE
VCC_
IO
GND_
IO
VREF
SB3_
CLKI
H
PX_D6
PX_D5
VCC_
CORE
VCC_
IO
GND_
CORE
GND_
CORE
VCC_
IO
VCC_
CORE
GND_
IO
GND_
CORE
VCC_
IO
GND_
CORE
PX_
VSYNC
PX_
DE
J
PX_D8
PX_D7
VCC_
CORE
VCC_
CORE
GND_
IO
GND_
IO
VCC_
IO
VCC_
CORE
GND_
IO
GND_
CORE
VCC_
CORE
VCC_
IO
PX_
HSYNC
PX_
CLK–
K
PX_D10
PX_D9
GND_
CORE
GND_
IO
VCC_
IO
VCC_
IO
GND_
CORE
GND_
CORE
VCC_
IO
VCC_
IO
GND_
CORE
GND_
IO
PX_D47
PX_
CLK+
L
PX_D12 PX_D11
GND_
CORE
GND_
IO
VCC_
CORE
VCC_
CORE
GND_
IO
GND_
IO
VCC_
IO
VCC_
CORE
GND_
CORE
VCC_
IO
PX_D45 PX_D46
M
PX_D14 PX_D13
VCC_
CORE
VCC_
IO
GND_
IO
GND_
IO
VCC_
IO
VCC_
CORE
GND_
CORE
GND_
IO
VCC_
CORE
VCC_
CORE
PX_D43 PX_D44
N
PX_D16 PX_D15 PX_D19 PX_D21 PX_D23 PX_D25 PX_D27 PX_D29 PX_D31 PX_D33 PX_D35 PX_D37 PX_D41 PX_D42
P
PX_D17 PX_D18 PX_D20 PX_D22 PX_D24 PX_D26 PX_D28 PX_D30 PX_D32 PX_D34 PX_D36 PX_D38 PX_D39 PX_D40
Table 5.1: INDT166B GigaSTaR Digital Display Link Transmitter Pin Assignment (Top View)
= Pin A1 Identifier
Date: 2005-03-14 Revision: 0.1
Page 34 of 40
INDT/R166B
INDT/R331B
Preliminary Data Sheet
5.2
INDR166B Receiver
1
2
3
4
5
6
7
8
9
10
11
12
13
14
A
CFG_
CYC
ERROR
PX_CLK
_IN
TX2-
TX2+
OSC
VCC_
A0
GND_
A0
GND_
A0
VCC_
A0
SB0_
D3
SB0_
D1
SB0_
CLK
SB2_
D3
B
NC
SYNC0
RESET#
VCC_
SX
GND_
SX
LOCK0
GND_
A0
RX0+
RX0-
GND_
A0
SB0_
D2
SB0_
D0
SB2_
D1
SB2_
D2
C
AI_C1
AI_C0
VCC_
CORE
VCC_
IO
EQ
VCC_
A0
VCC_
A0
GND_
A0
GND_
A0
VCC_
A0
CAP1
CAP2
SB2_
CLK
SB2_
D0
D
AI_C3
AI_C2
VCC_
IO
VCC_
IO
GND_
IO
VCC_
A0
GND_
A1
GND_
A1
VCC_
A1
VCC_
A1
GND_
A0
VCC_
A0
SB1_
D0
SB1_
D1
E
PX_D0
VCC_
IO
VCC_
CORE
GND_
CORE
GND_
IO
GND_
A0
GND_
IA
VCC_
IA
GND_
IA
VCC_
IA
GND_
CORE
GND_
IO
SB1_
CLKI
SB1_
CLKO
F
PX_D1
VCC_
IO
GND_
IO
GND_
CORE
GND_
IO
GND_
IO
VCC_
CML
VCC_
CML
GND_
CML
GND_
CML
GND_
CORE
GND_
CORE
SB3_
D0
SB3_
D1
G
PX_D3
PX_D2
GND_
IO
GND_
CORE
GND_
IO
GND_
CORE
VCC_
IO
VCC_
CORE
VCC_
IO
VCC_
CORE
VCC_
IO
GND_
IO
PX_
HSYNC
SB3_
CLK
H
PX_D5
PX_D4
VCC_
IO
VCC_
IO
GND_
IO
GND_
CORE
VCC_
IO
VCC_
IO
GND_
IO
GND_
CORE
VCC_
IO
GND_
IO
PX_
PX_CLK
VSYNC
_OUT
J
PX_D7
PX_D6
VCC_
CORE
VCC_
CORE
GND_
IO
GND_
IO
VCC_
CORE
VCC_
IO
GND_
IO
GND_
CORE
VCC_
CORE
VCC_
IO
PX_DE
K
PX_D9
PX_D8
GND_
IO
GND_
IO
VCC_
IO
VCC_
IO
GND_
IO
GND_
CORE
VCC_
IO
VCC_
IO
GND_
CORE
GND_
IO
PX_D46 PX_D47
L
PX_D11 PX_D10
GND_
CORE
GND_
IO
VCC_
CORE
VCC_
CORE
GND_
IO
GND_
CORE
VCC_
IO
VCC_
CORE
GND_
IO
VCC_
IO
PX_D44 PX_D45
M
PX_D13 PX_D12
VCC_
IO
VCC_
IO
GND_
IO
GND_
IO
VCC_
IO
VCC_
CORE
GND_
CORE
GND_
IO
VCC_
CORE
VCC_
IO
PX_D42 PX_D43
N
PX_D15 PX_D14 PX_D18 PX_D20 PX_D22 PX_D24 PX_D26 PX_D28 PX_D30 PX_D32 PX_D34 PX_D36 PX_D40 PX_D41
P
PX_D16 PX_D17 PX_D19 PX_D21 PX_D23 PX_D25 PX_D27 PX_D29 PX_D31 PX_D33 PX_D35 PX_D37 PX_D38 PX_D39
PX_CLK
Table 5.2: INDR166B GigaSTaR Digital Display Link Receiver Pin Assignment (Top View)
Date: 2005-03-14 Revision: 0.1
Page 35 of 40
INDT/R166B
INDT/R331B
Preliminary Data Sheet
5.3
INDT331B Transmitter
1
A
GND_
IO
2
3
4
5
6
7
RESET#
OSC
VCC_
A0
GND_
A0
GND_
A0
VCC_
A0
8
CAP3
9
10
11
12
13
14
15
16
17
18
RX2–
RX2+
VCC_
A0
GND_
A0
GND_
A0
VCC_
A0
CAP1
SB0_
D3
SB0_
D2
SB0_
D1
B
CFG_
CYC
ERROR
LOCK1
GND_
A0
TX1+
TX1–
GND_
A0
CAP4
VCC_
SX
LOCK0
GND_
A0
TX0+
TX0–
GND_
A0
CAP2
GND_
IO
GND_
IO
SB0_
D0
C
NC
SYNC2
VCC_
A0
VCC_
A0
GND_
A0
GND_
A0
GND_
A0
VCC_
A0
GND_
SX
VCC_
A0
VCC_
A0
GND_
A0
GND_
A0
GND_
A0
VCC_
A0
GND_
IO
SB2_
D3
SB0_
CLK
D
AI_C1
AI_C0
VCC_
A0
GND_
A1
GND_
A1
VCC_
A1
VCC_
A1
VCC_
A0
GND_
IO
VCC_
A0
GND_
A1
GND_
A1
VCC_
A1
VCC_
A1
VCC_
A0
GND_
IO
SB2_
D1
SB2_
D2
E
AI_C2
GND_
IO
GND_
IO
GND_
A0
GND_
IA
VCC_
IA
GND_
IA
VCC_
IA
GND_
IO
GND_
A0
GND_
IA
VCC_
IA
GND_
IA
VCC_
IA
GND_
IO
GND_
IO
SB2_
CLK
SB2_
D0
F
AI_C3
GND_
CORE
GND_
IO
VCC_
CML
VCC_
CML
GND_
CML
GND_
CML
GND_
IO
GND_
IO
GND_
IO
VCC_
CML
VCC_
CML
GND_
CML
GND_
CML
GND_
IO
GND_
IO
SB1_
D0
SB1_
D1
G
PX_D0
VCC_
IO
VCC_
CORE
VCC_
CORE
VCC_
IO
GND_
IO
GND_
CORE
VCC_
IO
VCC_
CORE
VCC_
IO
VCC_
IO
VCC_
CORE
GND_
CORE
GND_
CORE
VCC_
IO
VCC_
IO
SB3_
D1
SB1_
CLK
H
PX_D1
VCC_
IO
VCC_
IO
VCC_
CORE
GND_
IO
GND_
CORE
VCC_
IO
VCC_
IO
GND_
IO
GND_
CORE
VCC_
IO
VCC_
IO
GND_
IO
GND_
CORE
VCC_
IO
VCC_
IO
SB3_
CLKO
SB3_
D0
J
PX_D2
GND_
CORE
GND_
CORE
VCC_
CORE
GND_
IO
GND_
IO
VCC_
IO
VCC_
CORE
GND_
IO
GND_
IO
VCC_
IO
VCC_
CORE
GND_
IO
GND_
IO
VCC_
CORE
VCC_
CORE
VCC_
CORE
SB3_
CLKI
K
PX_D3
GND_
CORE
GND_
IO
GND_
CORE
VCC_
IO
VCC_
IO
GND_
IO
GND_
CORE
VCC_
IO
VCC_
IO
GND_
IO
GND_
CORE
VCC_
IO
VCC_
IO
GND_
CORE
GND_
CORE
GND_
CORE
SB4_
D1
L
PX_D4
GND_
CORE
GND_
IO
GND_
IO
VCC_
IO
VCC_
CORE
GND_
IO
GND_
IO
VCC_
IO
VCC_
CORE
GND_
IO
GND_
IO
VCC_
IO
VCC_
CORE
GND_
IO
GND_
IO
GND_
IO
SB4_
D0
M
PX_D5
VCC_
IO
VCC_
IO
VCC_
IO
GND_
IO
GND_
CORE
VCC_
IO
VCC_
IO
GND_
IO
GND_
CORE
VCC_
IO
VCC_
IO
GND_
IO
GND_
CORE
VCC_
IO
VCC_
IO
VCC_
IO
SB4_
CLKO
N
PX_D6
VCC_
CORE
VCC_
CORE
VCC_
CORE
GND_
IO
GND_
IO
VCC_
IO
VCC_
CORE
GND_
IO
GND_
IO
VCC_
IO
VCC_
CORE
GND_
IO
GND_
IO
VCC_
IO
VCC_
IO
SB4_
CLKI
VREF
P
PX_D8
PX_D7
GND_
IO
GND_
CORE
VCC_
IO
VCC_
IO
GND_
IO
GND_
CORE
VCC_
IO
VCC_
IO
GND_
IO
GND_
CORE
VCC_
IO
VCC_
IO
GND_
CORE
GND_
CORE
PX_DE
PX_
VSYNC
R
PX_D10
PX_D9
GND_
IO
GND_
IO
VCC_
IO
VCC_
CORE
GND_
IO
GND_
IO
VCC_
IO
VCC_
CORE
GND_
IO
GND_
IO
VCC_
IO
VCC_
CORE
GND_
IO
GND_
IO
PX_
HSYNC
PX_
CLK–
T
PX_D11
GND_
IO
GND_
CORE
GND_
CORE
VCC_
IO
VCC_
CORE
GND_
IO
GND_
IO
VCC_
IO
VCC_
CORE
GND_
IO
GND_
IO
VCC_
IO
VCC_
CORE
GND_
IO
GND_
IO
PX_D47
PX_
CLK+
U
PX_D12
GND_
IO
V
PX_D13 PX_D14 PX_D16 PX_D18 PX_D20 PX_D22 PX_D24 PX_D26 PX_D28 PX_D30 PX_D32 PX_D34 PX_D36 PX_D38 PX_D40 PX_D42 PX_D43 PX_D44
PX_D15 PX_D17 PX_D19 PX_D21 PX_D23 PX_D25 PX_D27 PX_D29 PX_D31 PX_D33 PX_D35 PX_D37 PX_D39 PX_D41 PX_D45 PX_D46
Table 5.3: INDT331B GigaSTaR Digital Display Link Transmitter Pin Assignment (Top View)
Date: 2005-03-14 Revision: 0.1
Page 36 of 40
INDT/R166B
INDT/R331B
Preliminary Data Sheet
5.4
INDR331B Receiver
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
A
RESET#
EQ
OSC
VCC_
A0
GND_
A0
GND_
A0
VCC_
A0
CAP3
TX2–
TX2+
VCC_
A0
GND_
A0
GND_
A0
VCC_
A0
CAP1
SB0_
D3
SB0_
D2
SB0_
D1
B
ERROR
PX_CLK
_IN
LOCK1
GND_
A0
RX1+
RX1–
GND_
A0
CAP4
VCC_
SX
LOCK0
GND_
A0
RX0+
RX0–
GND_
A0
CAP2
GND_
IO
GND_
IO
SB0_
D0
C
SNYC0
CFG_
CYC
VCC_
A0
VCC_
A0
GND_
A0
GND_
A0
GND_
A0
VCC_
A0
GND_
SX
VCC_
A0
VCC_
A0
GND_
A0
GND_
A0
GND_
A0
VCC_
A0
GND_
IO
SB2_
D3
SB0_
CLK
D
SYNC1
GND_
IO
VCC_
A0
GND_
A1
GND_
A1
VCC_
A1
VCC_
A1
VCC_
A0
GND_
IO
VCC_
A0
GND_
A1
GND_
A1
VCC_
A1
VCC_
A1
VCC_
A0
GND_
IO
SB2_
D1
SB2_
D2
E
AI_C0
GND_
IO
GND_
CORE
GND_
A0
GND_
IA
VCC_
IA
GND_
IA
VCC_
IA
GND_
IO
GND_
A0
GND_
IA
VCC_
IA
GND_
IA
VCC_
IA
GND_
IO
GND_
IO
SB2_
CLK
SB2_
D0
F
AI_C1
GND_
IO
GND_
IO
VCC_
CML
VCC_
CML
GND_
CML
GND_
CML
GND_
IO
GND_
IO
GND_
IO
VCC_
CML
VCC_
CML
GND_
CML
GND_
CML
GND_
CORE
GND_
IO
SB1_
D0
SB1_
D1
G
AI_C2
VCC_
IO
VCC_
IO
VCC_
CORE
VCC_
IO
GND_
IO
GND_
CORE
VCC_
IO
VCC_
CORE
VCC_
IO
VCC_
IO
VCC_
CORE
GND_
CORE
GND_
IO
VCC_
IO
VCC_
IO
SB1_
CLKI
SB1_
CLKO
H
AI_C3
VCC_
IO
VCC_
CORE
VCC_
CORE
GND_
IO
GND_
CORE
VCC_
IO
VCC_
IO
GND_
IO
GND_
CORE
VCC_
IO
VCC_
IO
GND_
IO
GND_
CORE
VCC_
IO
VCC_
IO
SB4_
D0
SB4_
D1
J
PX_D0
VCC_
IO
VCC_
CORE
VCC_
CORE
GND_
IO
GND_
IO
VCC_
IO
VCC_
CORE
GND_
IO
GND_
IO
VCC_
IO
VCC_
CORE
GND_
IO
GND_
IO
VCC_
CORE
VCC_
CORE
VCC_
CORE
SB4_
CLK
K
PX_D1
GND_
IO
GND_
CORE
GND_
CORE
VCC_
IO
VCC_
IO
GND_
IO
GND_
CORE
VCC_
IO
VCC_
IO
GND_
IO
GND_
CORE
VCC_
IO
VCC_
IO
GND_
CORE
GND_
CORE
GND_
CORE
SB3_
D1
L
PX_D2
GND_
IO
GND_
CORE
GND_
CORE
VCC_
IO
VCC_
CORE
GND_
IO
GND_
IO
VCC_
IO
VCC_
CORE
GND_
IO
GND_
IO
VCC_
IO
VCC_
CORE
GND_
IO
GND_
IO
GND_
IO
SB3_
D0
M
PX_D3
GND_
IO
VCC_
IO
VCC_
IO
GND_
IO
GND_
CORE
VCC_
IO
VCC_
IO
GND_
IO
GND_
CORE
VCC_
IO
VCC_
IO
GND_
IO
GND_
CORE
VCC_
IO
VCC_
IO
VCC_
IO
SB3_
CLK
N
PX_D4
VCC_
IO
VCC_
CORE
VCC_
CORE
GND_
IO
GND_
IO
VCC_
IO
VCC_
CORE
GND_
IO
GND_
IO
VCC_
IO
VCC_
CORE
GND_
IO
GND_
IO
VCC_
IO
VCC_
IO
PX_
VSYNC
PX_
HSYNC
P
PX_D6
PX_D5
GND_
IO
GND_
CORE
VCC_
IO
VCC_
IO
GND_
IO
GND_
CORE
VCC_
IO
VCC_
IO
GND_
IO
GND_
CORE
VCC_
IO
VCC_
IO
GND_
CORE
GND_
CORE
PX_DE
PX_CLK
_OUT
R
PX_D8
PX_D7
GND_
IO
GND_
CORE
VCC_
IO
VCC_
CORE
GND_
IO
GND_
IO
VCC_
IO
VCC_
CORE
GND_
IO
GND_
IO
VCC_
IO
VCC_
CORE
GND_
IO
GND_
CORE
PX_D47 PX_CLK
T
PX_D9
GND_
IO
GND_
IO
GND_
CORE
VCC_
IO
VCC_
CORE
GND_
IO
GND_
IO
VCC_
IO
VCC_
CORE
GND_
IO
GND_
IO
VCC_
IO
VCC_
CORE
GND_
IO
GND_
IO
PX_D45 PX_D46
U
PX_D10
GND_
IO
V
PX_D11 PX_D12 PX_D14 PX_D16 PX_D18 PX_D20 PX_D22 PX_D24 PX_D26 PX_D28 PX_D30 PX_D32 PX_D34 PX_D36 PX_D38 PX_D40 PX_D41 PX_D42
PX_D13 PX_D15 PX_D17 PX_D19 PX_D21 PX_D23 PX_D25 PX_D27 PX_D29 PX_D31 PX_D33 PX_D35 PX_D37 PX_D39 PX_D43 PX_D44
Table 5.4: INDR331B GigaSTaR Digital Display Link Receiver Pin Assignment (Top View)
Date: 2005-03-14 Revision: 0.1
Page 37 of 40
Preliminary Data Sheet
INDT/R166B
INDT/R331B
6 Package Information
6.1
INDT/R166B
Figure 6.1: Package: BGA 196, 15 x 15 mm, 196 balls, 1 mm ball pitch
Dim
Min
Nom
Max
A
–
1.9
A1
0.36
0.46
A2
0.38 REF
A3
1.0 REF
b
0.44
0.64
D
15 BSC
E
15 BSC
e
1.0 BSC
D1
13 BSC
E1
13 BSC
All dimensions and tolerances in mm!
Figure 6.2: BGA 196 – Dimensions and Tolerances
Date: 2005-03-14 Revision: 0.1
Page 38 of 40
Preliminary Data Sheet
6.2
INDT/R166B
INDT/R331B
INDT/R331B
Figure 6.3: Package: BGA 324, 19 x 19 mm, 324 balls, 1 mm ball pitch
Dim
Min
Nom
Max
A
–
2.0
A1
0.4
0.6
A2
0.38 Ref
A3
1.0 Ref
b
0.55
0.7
D
19 BSC
E
19 BSC
e
1.0 BSC
D1
17 BSC
E1
17 BSC
All dimensions and tolerances in mm!
Figure 6.4: BGA 324 – Dimensions and Tolerances
Date: 2005-03-14 Revision: 0.1
Page 39 of 40
INDT/R166B
INDT/R331B
Preliminary Data Sheet
7 Ordering and Product Availability
Ordering Code
INDT166B
INDR166B
IND166SK
INDT331B
INDR331B
IND331SK
Delivery Package
Minimum Packing Quantity
Tray (in sealed dry pack)
Tray (in sealed dry pack)
Sample Kit (5 x Tx, 5 x Rx)
Tray (in sealed dry pack)
Tray (in sealed dry pack)
Sample Kit (2 x Tx, 2 x Rx)
126 units
126 units
10 units
84 units
84 units
4 units
Status
Engineering Samples
Engineering Samples
Engineering Samples
Engineering Samples
Engineering Samples
Engineering Samples
available by June ‘05
available by June ‘05
available by June ‘05
available by June ‘05
available by June ‘05
available by June ‘05
Table 7.1: Product Availability
8 Revision History
The information contained in this data sheet supersedes information published in previous versions.
The following changes were made:
• v 0.1 Preliminary Data Sheet
Inova Semiconductors GmbH
Grafinger Str. 26
D-81675 Munich, Germany
Phone: +49 (0)89 / 45 74 75 - 60
Fax:
+49 (0)89 / 45 74 75 - 88
Email: mailto:[email protected]
URL:
http://www.inova-semiconductors.com
is a registered trademark of Inova Semiconductors GmbH.
All other trademarks or registered trademarks are the property of their respective holders.
This document contains information on new products not yet released to production. Therefore specifications and
information herein are subject to change without notice. Inova Semiconductors GmbH does not assume any liability arising
out of the applications or use of the product described herein; nor does it convey any license under its patents, copyright
rights or any rights of others.
Inova Semiconductors products are not designed, intended or authorized for use as components in systems to support or
sustain life, or for any other application in which the failure of the product could create a situation where personal injury or
death may occur. The information contained in this document is believed to be current and accurate as of the publication
date. Inova Semiconductors GmbH reserves the right to make changes at any time in order to improve reliability, function
or performance to supply the best product possible.
Inova Semiconductors GmbH assumes no obligation to correct any errors contained herein or to advise any user of this
text of any correction if such be made.
© Inova Semiconductors 2005
Date: 2005-03-14 Revision: 0.1
Page 40 of 40