The DS90CR216MTD/NOPB has the following pin configuration:
Pin Number | Pin Name | Description
-----------|----------|------------
1 | VCC | Power supply voltage
2 | GND | Ground
3 | CLKIN | Differential clock input
4-21 | DATA[17:0]| Differential data inputs/outputs
22 | VOD | Output voltage swing control
23 | VDDO | Output supply voltage
24 | GND | Ground
25 | VDDI | Input supply voltage
26 | GND | Ground
27 | MODE | Mode select input
28 | GND | Ground
29 | SLEEP | Sleep mode control input
30 | GND | Ground
31 | RESET | Reset input
32 | GND | Ground
33 | VDDA | Analog supply voltage
34 | GND | Ground
35 | VREF | Reference voltage input
36 | GND | Ground
37 | VCMO | Common-mode output voltage
38 | GND | Ground
39 | VCMR | Common-mode reference voltage
40 | GND | Ground
41 | VCMI | Common-mode input voltage
42 | GND | Ground
43 | VBB | Bias voltage
44 | GND | Ground
45 | VBBT | Transmitter bias voltage
46 | GND | Ground
47 | VBBR | Receiver bias voltage
48 | GND | Ground
49 | VBBM | Monitor bias voltage
50 | GND | Ground
51 | VBBR2 | Receiver bias voltage 2
52 | GND | Ground
53 | VBBT2 | Transmitter bias voltage 2
54 | GND | Ground
55 | VBBM2 | Monitor bias voltage 2
56 | GND | Ground
The DS90CR216MTD/NOPB is a Serializer/Deserializer (SerDes) IC designed to transmit and receive high-speed digital video signals. It converts parallel data into serial data for transmission over a differential LVDS interface. At the receiving end, it performs the reverse operation, converting the serial data back into parallel format.
The IC operates by clocking in the parallel data at the input and converting it into a serialized bitstream. This bitstream is then transmitted over the LVDS interface using differential signaling. At the receiving end, the IC receives the serial data and converts it back into parallel format for further processing.
The DS90CR216MTD/NOPB is commonly used in
What is the maximum data rate supported by DS90CR216MTD/NOPB?
- The maximum data rate supported by DS90CR216MTD/NOPB is 165 MHz.
Can DS90CR216MTD/NOPB be used for LVDS to CMOS conversion?
- Yes, DS90CR216MTD/NOPB can be used for LVDS to CMOS conversion.
What is the power supply voltage range for DS90CR216MTD/NOPB?
- The power supply voltage range for DS90CR216MTD/NOPB is 3.0V to 3.6V.
Is DS90CR216MTD/NOPB compatible with HDCP (High-bandwidth Digital Content Protection)?
- Yes, DS90CR216MTD/NOPB is compatible with HDCP.
Can DS90CR216MTD/NOPB be used in automotive applications?
- Yes, DS90CR216MTD/NOPB is suitable for automotive applications.
What is the typical differential output voltage swing of DS90CR216MTD/NOPB?
- The typical differential output voltage swing of DS90CR216MTD/NOPB is 350mV.
Does DS90CR216MTD/NOPB support spread spectrum clocking?
- Yes, DS90CR216MTD/NOPB supports spread spectrum clocking.
What is the operating temperature range for DS90CR216MTD/NOPB?
- The operating temperature range for DS90CR216MTD/NOPB is -40°C to 85°C.
Can DS90CR216MTD/NOPB be used for video transmission over long distances?
- Yes, DS90CR216MTD/NOPB is suitable for video transmission over long distances.
Is DS90CR216MTD/NOPB RoHS compliant?
- Yes, DS90CR216MTD/NOPB is RoHS compliant.