DescriptionThe SBX1601A is designed as a hybrid IC encoder that converts the parallel data into serial form for the purpose of interface or transmission of digital video or audio data. Typical applications is encoder for 100 to 270Mbps serial data.SBX1601A has five functions. (1)Parallel to serial...
SBX1601A: DescriptionThe SBX1601A is designed as a hybrid IC encoder that converts the parallel data into serial form for the purpose of interface or transmission of digital video or audio data. Typical appli...
SeekIC Buyer Protection PLUS - newly updated for 2013!
268 Transactions
All payment methods are secure and covered by SeekIC Buyer Protection PLUS.
The SBX1601A is designed as a hybrid IC encoder that converts the parallel data into serial form for the purpose of interface or transmission of digital video or audio data. Typical applications is encoder for 100 to 270Mbps serial data.
SBX1601A has five functions. (1)Parallel to serial conversion. (2)Scrambler: modulo-2 division by G(X)=(X^9+X^4+1)(X+1). (3)PLL for serial clock generation. (4)PLL lock detection. (5)SYNC word or timing reference signal (or TRS) required in parallel incoming data (Hex). Those are all the main functions.
Some absolute maximum ratings of SBX1601A have been concluded into several points as follow. (1)Its supply voltage would be -6V for Vee and would be 6V for Vcc. (2)Its input voltage would be from Vee to Vcc. (3)Its output current would be -30mA. (4)Its operating temperature range would be from 0°C to 65°C. (5)Its storage temperature range would be from -50°C to 125°C. (6)Its allowable power dissipation would be 2.0W. It should be noted that stresses above those listed in absolute maximum ratings may cause permanent damage to device.
Also some electrical characteristics of SBX1601A are concluded as follow. (1)Its supply current 1 with symbol Iee would be typ 140mA. (2)Its supply current 2 with symbol Icc would be typ 7mA. (3)Its input voltage pin used PCX, PCY, DnX, DnY at Vcc=GND would be min -1.0V for high and max -1.6V for low and at Vcc=+5V would be min 2.0V for high and would be max 0.8V for low. (4)Its input current would be max +5.0uA for high level and would be min -1.0uA and max 1.0uA for low level. (5)Its input voltage pin used RSE would be min -0.4V for high and would be max -4.0V for low and pin used TN1 would be min -1.0V for high and max -4.5V for low. (6)Its output voltage pin used PCK would be typ -0.8V for high and would be typ -1.6V for low. And so on. If you have any question or suggestion or want to know more information please contact us for details. Thank you!