R/2R Ladder Networks R/2R Ladder Networks are available in both DIP and SIP (Molded or Conformal) configurations. OUT 16 16-PIN 8-BIT DIP 15 14 13 12 11 RT 9 10 R R R R R R R 2R 2R 2R 2R 2R 2R 2R Standard R/2R Ladder Networks have a resistance tolerance of ±2.0% (±1.0% available on all but low profile SIPs). 2R DIP/SMD 1 2 3 4 5 6 7 8 BIT 1 MSB 2 3 4 5 6 7 8 LSB PIN 1 BIT OUT R R R R R R R 2R 2R 2R 2R 2R 2R 2R Standard R/2R Ladder Networks Availability is as follows: 2R PIN 10-PIN 8-BIT SIP taken from the R/2R ladder. This terminal (OUT) is commonly used to drive an operational amplifier. RT (the terminating resistor) is always connected to ground. 14 Pin - 7 Bit 16 Pin - 8 Bit 2R 2R 2 3 4 5 6 7 8 9 10 1 MSB 2 3 4 5 6 7 8 LSB RT The R/2R Ladder Network is commonly used for Digital to Analog (D/A) conversions and Analog to Digital (A/D) conversion by successive approximations. The bits of the ladder are the points at which input signals are presented to the ladder and the output terminal (OUT) is the point at which the output is SIP-CONFORMAL SIP MOLDED 6 Pin - 4 Bit 7 Pin - 5 Bit 8 Pin - 6 Bit 9 Pin - 7 Bit 10 Pin - 8 Bit 11 Pin - 9 Bit 12 Pin -10 Bit 14 Pin -12 Bit 6 Pin - 4 Bit 8 Pin - 6 Bit 10 Pin - 8 Bit Resistor Power Ratings @ 70˚ C Low Profile SIP & DIP .................................................... Medium Profile SIP ........................................................ High Profile SIP .............................................................. .125W .170W .200W How To Order R/2R Ladder Networks 41 16 R - R2R - 503 Model (41 = Molded DIP) (43 = Molded SIP) (44 = Wide Body SMD) (46 = Conformal SIP) (48 = SMD) Resistance/Capacitance Code (For value of R). 2R is double this value. • First 2 digits are significant. • Third digit represents the number of zeros to follow. Number of Pins Physical Configuration (R = Low Profile - Molded) (X = Low Profile - Conformal) (M = Medium Profile) (H = High Profile) (P = Medium Body SOIC) Specifications are subject to change without notice. Electrical Configuration • R2R = R/2R Ladder Network 331