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| DG894 Vishay Siliconix Component Video Selector FEATURES D D D D D D D Wide Bandwidth: 200 MHz Very Low Crosstalk: -70 dB at 5 MHz CMOS Compatible I2C Bus Compatible Fast Switching--tON: <200 ns Low rDS(on): 44 W Single Supply Capability BENEFITS D D D D D Low Insertion Loss Improved System Performance Reduced Power Consumption Easily Interfaced Future System Expansion via I2C Bus APPLICATIONS D Component Video Switching: RGB + SYNC, S-VHS, Y-C, etc. D Audio/Video Routing D Digital TV D ATE D I2C Bus Audio/Video Systems D SCART Video Switching DESCRIPTION The DG894 is a monolithic video selector designed for switching a variety of component video signals. The low on-resistance and low capacitance of the DG894 make it ideal for video/audio signal routing. Switch control can be through direct CMOS addressing or through the two-wire I2C bus. The DG894 is built on the Vishay Siliconix proprietary D/CMOS process that combines n-channel DMOS switching FETs with low-power CMOS control logic and drivers. Low-capacitance DMOS FETs are used to achieve high levels of off isolation at low cost. FUNCTIONAL BLOCK DIAGRAM AND PIN CONFIGURATION Dual-In-Line and SOIC VDD Y1 C1 GND Y2 C2 VSS ROUT GOUT BOUT FBOUT FB2 R2 G2 1 2 3 4 5 6 7 8 9 10 11 12 13 14 Control Logic/Drivers 28 27 26 25 24 23 22 21 20 19 18 17 16 15 C0 Y0 VDD COUT YOUT SMO SCL SDA SEL R1 G1 B1 FB1 B2 TRUTH TABLE SMO 0 0 1 1 1 1 1 1 1 1 SEL 0 1 0 0 0 0 1 1 1 1 SDA I2C SCL Function/Switch On Bus Operation, Address A0 = "1" I2C Bus Operation, Address A0 = "0" 0 0 1 1 0 0 1 1 0 1 0 1 0 1 0 1 All switches off Y0, C0 Y1, C1 Y2, C2 R1, G1, B1, F1 R2, G2, B2, F2 R1, G1, B1, F1, Y1, C1 R2, G2, B2, F2, Y2, C2 ORDERING INFORMATION Temp Range -40 to 85_C -40 to 85_C Package 28-Pin Plastic DIP 28-Pin Wide Body SOIC Part Number DG894DJ DG894DW Top View Document Number: 70072 S-52433--Rev. D, 06-Sep-99 www.siliconix.com S FaxBack 408-970-5600 5-1 DG894 Vishay Siliconix ABSOLUTE MAXIMUM RATINGS V+ to GND . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -0.3 V to 19 V V+ to V- . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -0.3 V to 19 V V- to GND . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -10 V to 0.3 V Digital Inputs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . GND -0.3 V to (V+) +0.3 V or 20 mA, whichever occurs first Signal Inputs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . VSS -0.3 V to 8 V or 20 mA, whichever occurs first Continuous Current (Any Terminal) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20 mA Current (Any Terminal) Pulsed 1 ms, 10% Duty Cycle Max . . . . . . . . 40 mA Storage Temperature . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -65 to 125_C Power Dissipation (Package)a 28-Pin Plastic DIP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 625 mW 28-Pin Wide Body SOIC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 450 mW Notes: a. All leads welded or soldered to PC board. SPECIFICATIONS Test Conditions Unless Otherwise Specified Parameter Analog Switch Analog Signal Ranged VANALOG rDS(on) IS = -10 mA, VD = 0 V DrDS(on) IS(off) ID(off) ID(on) VS = 4 V, VD = 0 V VD = 4 V, VS = 0 V VD = VS = 4 V Room Room Full Room Full Room Full -10 -100 -10 -100 -10 -100 10 -0.05 -0.05 -0.07 10 100 10 100 10 100 nA VDD = 12 V, VSS = GND VDD = 12 V, VSS = -5 V Full Full Room Full 0 -2 44 51 4 2 100 150 V Limits -40 to 85_C Symbol VDD = 12 V, VSS = -5 V VINH = 3 V, VINL = 1.5 Ve Tempa Minc Typb Maxc Unit Drain-Source On-Resistance Resistance Match Between Channels Source Off Leakage Current Drain Off Leakage Current Total Switch On Leakage Current W Input Input Voltage High Input Voltage Low Input Threshold Temp Coefficient of Input Threshold Input Current Output Voltage Low VINH VINL Vth TCth IIN VOL VIN = GND or VDD Pin 21, During Acknowledge, IOL = 3 mA Full Full Room Full Room Full Room -1 -20 3 2.55 2.55 2.55 -200 0.05 1 20 0.4 mV/ _C mA V 1.5 V Dynamic Input Capacitanced On State Input Capacitanced Off State Input Capacitanced Off State Output Capacitanced Bandwidthd Turn On Time Turn Off Time SCL Max Clock Frequency Component Crosstalk Channel Crosstalk www.siliconix.com S FaxBack 408-970-5600 Cin CS(on) CS(off) CD(off) BW tON tOFF FSCL(MAX) XTALK(CO) XTALK(CH) RIN = 10 W, RL = 1 kW , f = 5 MHz, See Figure 2 and 3 MH S Fi d Pin 21, 22 VS = VD = 0 V VS = 0 V VD = 0 V RL = 50 W, See Figure 1 RL = 1 kW, CL = 35 pF, 50% to 90% VSS = -5 V, 0 V, VS = 3 V, See Figure 1 Room Room Room Room Room Room Room Full Room Room 100 -85 dB -85 Document Number: 70072 S-52433--Rev. D, 06-Sep-99 200 3 10 4 4 500 200 ns 180 kHz 10 15 pF F 8 8 MHz 5-2 DG894 Vishay Siliconix SPECIFICATIONS Test Conditions Unless Otherwise Specified Parameter Supply Voltage Positive Supply Current Negative Supply Current I+ All Control Inputs 0 V, 5 V I- Room Full Room Full -8 -10 3 4 -2.5 -3.0 8 10 Limits -40 to 85_C Symbol VDD = 12 V, VSS = -5 V VINH = 3 V, VINL = 1.5 Ve Tempa Minc Typb Maxc Unit mA Notes: a. Room = 25_C, Full = as determined by the operating temperature suffix. b. Typical values are for DESIGN AID ONLY, not guaranteed nor subject to production testing. c. The algebraic convention whereby the most negative value is a minimum and the most positive a maximum, is used in this data sheet. d. Guaranteed by design, not subject to production test. e. VIN = input voltage to perform proper function. Purchase of Vishay Siliconix DG894 components conveys a license to use them in the I2C system as defined by Philips. TYPICAL CHARACTERISTICS (25_C UNLESS NOTED) 200 r DS(on) Drain-Source On-Resistance ( W ) - 180 160 140 120 100 85_C 80 25_C 60 40 20 -4 -2 2 4 VD - Drain Voltage (V) 0 6 8 -40_C rDS(on) vs. Drain Voltage V+ = 12 V V- = -5 V IS = -10 mA r DS(on) Drain-Source On-Resistance ( W ) - 200 180 160 140 120 100 80 25_C 60 40 20 0 rDS(on) vs. Drain Voltage V+ = 12 V V- = 0 V IS = -10 mA 85_C -40_C 2 4 VD - Drain Voltage (V) 6 8 106 tON vs. Bipolar Supply Voltage V- = -5 V See Figure 1 45.5 tOFF vs. Bipolar Supply Voltage 85_C 100 85_C 94 43.5 V- = -5 V See Figure 1 t OFF (ns) 41.5 25_C 39.5 t ON (ns) 88 25_C 82 -40_C 76 10.8 11.2 11.6 12.0 12.4 V+ - Positive Supply (V) 12.8 13.2 37.5 -40_C 35.5 10.8 11.2 11.6 12.0 12.4 V+ - Positive Supply (V) 12.8 13.2 Document Number: 70072 S-52433--Rev. D, 06-Sep-99 www.siliconix.com S FaxBack 408-970-5600 5-3 DG894 Vishay Siliconix TYPICAL CHARACTERISTICS (25_C UNLESS NOTED) tON vs. Unipolar Supply Voltage 108 V- = 0 V See Figure 1 100 54 85_C 51 V- = 0 V See Figure 1 57 tOFF vs. Unipolar Supply Voltage 85_C t OFF (ns) 25_C t ON (ns) 92 84 48 25_C 76 -40_C 45 -40_C 68 10.8 11.2 11.6 12.0 12.4 12.8 13.2 V+ - Positive Supply (V) 42 10.8 11.2 11.6 12.0 12.4 12.8 13.2 V+ - Positive Supply (V) SDA Output Current vs. Supply Voltage 10 V- = -5 V 8 VOL = 0.4 V TA = 25_C Current (mA) 6 Current (mA) V- = 0 V 10 12 SDA Output Current vs. Temperature V- = 0 V 8 6 V+= 12 V VOL = 0.4 V V- = -5 V 4 Specification Minimum Limit 4 2 Specification Minimum Limit 2 0 10.8 11.2 11.6 12.0 VSUPPLY (V) 12.4 12.8 13.2 0 -40 -20 0 20 40 60 80 100 Temperature (_C) Component Crosstalk 120 110 100 90 dB 80 70 60 50 40 1 2 3 4 5 10 dB VDS = +12 V VSS = -5 V RIN = 10 W RL = 1 kW See Figure 2 120 110 100 90 80 70 60 50 40 1 Channel Crosstalk VDD = +12 V VSS = -5 V RIN = 10 W RL = 1 kW See Figure 3 2 3 4 5 10 f - Frequency (MHz) f - Frequency (MHz) www.siliconix.com S FaxBack 408-970-5600 5-4 Document Number: 70072 S-52433--Rev. D, 06-Sep-99 DG894 Vishay Siliconix TEST CIRCUITS +12 V V+ VS S IN 3V GND V- RL 1 kW CL 35 pF D VO Logic Input Switch Input 5V 50% VS 90% Switch Output -5 V 0V tON tOFF CL (includes fixture and stray capacitance) VO = VS RL RL + rDS(on) FIGURE 1. Switching Time B1 FB1 e.g., Y or C e.g., Y1 or C1 e.g., Y2 or C2 YOUT or COUT 10 W B2 R2 G2 BOUT FBOUT RL 1 kW 10 W RL 1 kW 10 W 1 kW 1 kW VOUT XTALK(CO) + 20 log 10 V IN VOUT XTALK(CH) + 20 log10 V IN FIGURE 2. Component Crosstalk +12 V C V+ VS Rg = 75 W RL 50 W GND V- S D FIGURE 3. Channel Crosstalk VO -5 V FIGURE 4. Bandwidth Document Number: 70072 S-52433--Rev. D, 06-Sep-99 www.siliconix.com S FaxBack 408-970-5600 5-5 DG894 Vishay Siliconix OPERATING VOLTAGE RANGE 20 18 16 Operating Voltage Area 14 12 10 8 6 4 2 -5.5 -5.0 -4.5 -4.0 -3.5 -3.0 -2.5 -2.0 -1.5 -1.0 -0.5 V- - Negative Supply Voltage (V) 0 -0.0 V+ - Positive Supply Voltage (V) f a Data Sheet Test Conditions FIGURE 5. PIN DESCRIPTION Symbol Y0, Y1, Y2 C0, C1, C2 R1, R2, G1, G2, B1, B2, FB1, FB2 GND VDD VSS YOUT , COUT ROUT , GOUT , BOUT , FBOUT SMO SDA SCL SEL An analog channel input, typically luminance. An analog channel input, typically chrominance. An analog channel input, typically "red", "green", "blue" or "fast blanking", as appropriate. Analog and digital ground. Positive supply voltagea Negative supply voltage An analog channel output, typically luminance or chrominance, as appropriate An analog channel output, typically "red", "green", "blue" or "fast blanking", as appropriate. A low selects serial mode (I2C) operation. A high selects CMOS operation. Serial data lineb Serial clock lineb CMOS control line or I2C addressc select line Description Notes: a. Both VDD pins (Pin 1 and Pin 26) must be connected for proper operation. b. SDA and SCL pins become CMOS control inputs when SMO = High. c. The SEL pin, in I2C bus operation (i.e., with SMO low), is the least significant bit of the device address. This allows two devices to operate on the same I2C bus, yet retain independent control. www.siliconix.com S FaxBack 408-970-5600 5-6 Document Number: 70072 S-52433--Rev. D, 06-Sep-99 DG894 Vishay Siliconix APPLICATIONS -5 V +12 V VSS Y1 C1 R1 75 W G1 75 W B1 75 W SYNC1 75 W Left2 Right2 R2 75 W G2 75 W B2 75 W SYNC2 75 W B2 FB2 G1 B1 FB1 Y2 C2 VDD YOUT COUT Left1 Right1 R1 Left Right +5 V 75 W R2 G2 ROUT GOUT BOUT FBOUT CLC114 +5 V SMO -5 V SEL Control Logic SDA ROUT GOUT BOUT SYNCOUT SCL GND Channel Select FIGURE 6. Document Number: 70072 S-52433--Rev. D, 06-Sep-99 www.siliconix.com S FaxBack 408-970-5600 5-7 DG894 Vishay Siliconix I2C Bus Operation--RGB Switching Figure 6 shows an inexpensive RGB + stereo selector. The two audio channels are switched via the C, Y terminals. The CLC114 quad video buffer drives four 75-W output lines. - - - number of devices on bus total bus capacitance supply voltage (Figure 7). Characteristics of the I@C Bus The I@C Bus interface is ideally suited for communication between different ICs or modules. Its salient features are: D Two wire bidirectional serial bus Data Transfer on the I@C Bus If the bus is not being used, both SDA and SCL lines must be left high. - Serial data (SDA) and serial clock (SCL) lines Every byte put onto the SDA line should be eight bits long (MSB first), followed by an acknowledge bit, which is generated by the receiving device. D Multi-master system (built-in arbitration for multi-master systems) D Devices have independent clocks D Master and slave devices can be receivers and/or transmitters. D Each device has a unique address. D Maximum bus clock rate of 100 kHz. D Any number of interfaces may be connected to the bus Each data transfer is initiated with a start condition and ended with a stop condition. The first byte after a start condition is always the address byte. If this is the device's own address, the device will generate an acknowledge by pulling the SDA line low during the ninth clock pulse, then accept the data in subsequent bytes until another start or stop condition is detected. - - - Limited only by total capacitance of 400 pF Each pin on bus limited to 10-pF capacitance Input levels: VIL max = 1.5 V (fixed supply operation) VIH min = 3 V (fixed supply operation) VIL max = 0.3 VDD (wide range supply operation) VIH min = 0.7 VDD (wide range supply operation) The eight bit of the address byte is the read/write bit (high = read from addressed device, low = write to the addressed device) so, for the DG894, the address is only considered valid if the R/W bit is low. Data bytes are always acknowledged during the ninth clock pulse by the addressed device. Note that during the acknowledge period the transmitting device must leave the SDA line high. System Configuration Rp value depends on: Premature termination of the data transfer is allowed by generating a stop condition at any time. When this happens, the DG894 will remain in the state defined by the last complete data byte transmitted. Rp SCL SDA Master Transmitter/ Receiver Master Transmitter Rp Peripheral Device Peripheral Device FIGURE 7. www.siliconix.com S FaxBack 408-970-5600 Document Number: 70072 S-52433--Rev. D, 06-Sep-99 5-8 DG894 Vishay Siliconix SDA SDA SCL STA Start Condition STO Stop Condition SCL FIGURE 8. START and STOP Conditions SDA MSB acknowledgement signal from receiver byte complete, interrupt within receiver SCL 1 STA Start Condition 2 7 8 9 ACK 1 2 3-8 9 ACK STO Stop Condition acknowledgement signal from receiver clock line held low while interrupts are serviced FIGURE 9. Data Transfer on the I2C Bus Timing Specifications of the I@C Bus I@C bus load conditions for timing specifications are as follows: I@C Bus Protocol The DG894 is a slave receiver type of I@C interface and has four allocated addresses, two of which are user programmable through the SEL pin. Additional addresses may be obtained by a metal mask option for users requiring more than two DG894s on the same I@C bus. Contact Vishay Siliconix marketing for further information. After the correct address has been sent, only one data byte is needed to define the switch configuration. Subsequent data put onto the bus will update the switches until a STOP condition (or another START condition) signals that the device is no longer being addressed. The switches will then remain in their last configuration as long as power is maintained to the chip. 4 kW pull-up resistors to +5 V; 200 pF capacitor to ground. All values are referred to VIH = 3 V, VIL = 1.5 V. Parameter SCL Clock Frequency Bus Free Before Start Start Condition Set-up Time Start Condition Hold Time SCL and SDA Low Period SCL and SDA High Period SCL and SDA Rise Time SCL and SDA Fall Time Data Set-Up Time (WRITE) Data Hold Time (WRITE) Symbol fscl tBUF tSU;STA tHD;STA tLOW tHIGH tr tf tSU;DAT tHD;DAT Min - 4.7 4.7 4 4.7 4 - - 0.25 0* Max 100 - - - - - 1.0 0.3 - - Unit kHz ms Power on Reset A power on reset function is provided on the DG894 to turn all switches off following power up if the I@C mode is selected. In the CMOS control mode, the switches are selected according to the state of the control inputs. www.siliconix.com S FaxBack 408-970-5600 *A transmitter must internally provide at lease a hold time to bridge the undefined region (max 300 ns) of the falling edge of the SCL. Document Number: 70072 S-52433--Rev. D, 06-Sep-99 5-9 DG894 Vishay Siliconix SDA tBUF tR SCL tF tHD;STA tHD;STA STO STA tLOW tHIGH tHD;DAT tSU;DAT tSU;STA STA tSU;STO STO FIGURE 10.I2C Bus Timing Diagram Minimum Bit Stream to Set Up DG894 Switches STA 1 1 0 1 1 A1 A0 R/W ACK X X X D4 D3 D2 D1 D0 ACK STO Address Byte Data Byte STA A1 A0 R/W ACK D4 D4 D3 D3 D2 D2 D1 D1 D0 D0 STO = START CONDITION = 0 (programmable to "1" with metal mask change) = SEL. Address bit set by use (address is inverse of SEL logic level) = READ/WRITE bit (must be "0", only WRITE mode allowed for DG894) = Acknowledge bit ("0") generated by DG894 = 0 -- R2, G2, B2, and FB2 switches off = 1 -- R2, G2, B2, and FB2 switches on = 0 -- R1, G1, B1, and FB1 switches off = 1 -- R1, G1, B1, and FB1 switches on = 0 -- Y2, C2, switches off = 1 -- Y2, C2, switches on = 0 -- Y1, C1, switches off = 1 -- Y1, C1, switches on = 0 -- Y0 and C0 switches off = 1 -- Y0 and C0 switches on = STOP CONDITION www.siliconix.com S FaxBack 408-970-5600 5-10 Document Number: 70072 S-52433--Rev. D, 06-Sep-99 |
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