ACT8504 Radiation Hardened & ESD Protected 64-Channel Analog Multiplexer Module With MUX Output Monitor Function Features ■ CIRCUIT TECHNOLOGY Radiation Environment www.aeroflex.com • Radiation 300K(Si) Total Dose • No Latch-Up or SEE to 120MeV/cm2/mg ■ ■ ■ ■ ■ ■ ■ ■ ■ ISO I NC . ■ S ■ B ■ Full Military Temperature Range Low Power Consumption < 75mW 64 Channels Provided by Four (4) HS-1840RH Multiplexers Address Bus (A0-3), and Four Enable lines afford flexible organization Output Monitoring of HS-1840RH outputs to a Fifth HS1840RH. Controlled with C0, C1 Address Lines. All Channel Inputs protected by ±20V Transorbs X LA LE F Fast Access Time 1500ns ±35V Input Over Voltage Protection (Power On or Off) Break-Before-Make Switching 9001 C High Analog Input Impedance (Power On or Off) E RTIFIE D Dielectrically Isolated Device Islands No Latch-Up Packaging – Hermetic Ceramic Quad Flat Pack AE RO ■ • 96 Leads, 1.32"Sq x .20"Ht Quad Flat Pack • Typical Weight 15 grams ■ DESC SMD Pending General Description Aeroflex’s ACT8504 is a radiation hardened, multi-chip 64 channel multiplexer MCM (multi-chip module) with ESD protection for use in space applications. All channel inputs have electrostatic discharge protection. The ACT8504 has been specifically designed to meet exposure to radiation environments. The multiplexer is available in a 96 lead High Temperature Co-Fired Ceramic (HTCC) Quad Flatpack (QFP) and is guaranteed operational from -55°C to +125°C. Available screened in accordance with MIL-PRF-38534, the ACT8504 is ideal for demanding military and space applications. eroflex Circuit Technology – Multiplexer Modules For The Future © SCD8504 REV A 10/26/01 Aeroflex Circuit Technology 2 SCD8504 REV A 10/26/01 Plainview NY (516) 694-6700 • • • 16 16 VR 16 VR 16 MUX 4 MUX 2 -VEE +VCC EN 32-47 ACT8504 64 Channel Analog MUX Block Diagram EN 48-63 MUX 3 • • • CH 48 EN 32-47 VR 16 CH 63 16 CH 47 CH 32 A0 A1 A2 A3 C0 C1 EN 16-31 MUX 1 • • • CH 16 EN 0-15 VR 16 CH 31 16 CH 15 • • • CH 0 MUX OUTPUT MONITOR GND VREF OUTPUT 32-47 OUTPUT 48-63 OUTPUT MONITOR OUTPUT 0-15 OUTPUT 16-31 Organization and Application The ACT8504 consists of four 16 channel muxes arranged as shown in the Block Diagram. The muxes channels 0-63 are controlled by address lines A0 - A3. The mux output monitor is controlled by address lines C0, C1. The ACT8504 design is inherently Radiation Hard due to the HS1840RH Multiplexers as well as Microsemi Corp. Transient Suppressors (Reference Microsemi MicroNotes Series 050 page 14). NOTE: It is recommended that all "NC or "no connect pin", be grounded. This eliminates or minimizes any ESD or static buildup. Aeroflex Circuit Technology 3 SCD8504 REV A 10/26/01 Plainview NY (516) 694-6700 Absolute Maximum Ratings 1/ Parameter Range Units Case Operating Temperature Range -55 to +125 °C Storage Temperature Range -55 to +150 °C +20 -20 +20 V V V < VR +4 > GND -4 V V ±18 V Supply Voltage +VCC (Pin 44) -VEE (Pin 46) VREF (Pin 48) Digital Input Overvoltage VEN (Pins 5, 6, 91, 92), VA (Pins 93, 95, 1, 3), VC (Pins 2, 4) Analog Input Over Voltage VS Notes: 1/ All measurements are made with respect to ground. NOTICE: Stresses above those listed under "Absolute Maximums Rating" may cause permanent damage to the device. These are stress rating only; functional operation beyond the "Operation Conditions" is not recommended and extended exposure beyond the "Operation Conditions" may effect device reliability. Recommended Operating Conditions Symbol Parameter Typical Units +VCC +15V Power Supply Voltage +15.0 V -VEE -15V Power Supply Voltage -15.0 V VREF Reference Voltage +5.00 V VAL Logic Low Level +0.8 V VAH Logic High Level +4.0 V DC Electrical Performance Characteristics 1/ (Tc = -55°C to +125°C, +VEE = +15V, -VEE = -15V, VREF = +5.0V, Unless otherwise specified) Parameter Supply Current Address Input Current Enable Input Current Aeroflex Circuit Technology Symbol Conditions Min Max Units I+ VEN(0-63) = VA(0-3)A = VA(0-1)C = 0 .25 2.5 mA I- VEN(0-63) = VA(0-3)A = VA(0-1)C = 0 -2.5 -.25 mA +ISBY VEN(0-63) = 4V, VA(0-3)A = VA(0-1)C = 0 6/ 0.25 2.5 mA -ISBY VEN(0-63) = 4V, VA(0-3)A = VA(0-1)C = 0 6/ -2.5 0.25 mA IAL(0-3)A VA = 0V 1/ -4 4 µA IAH(0-3)A VA = 5V 1/ -4 4 µA IAL(0-1)C VA = 0V 1/ -1 1 µA IAH(0-1)C VA = 5V 1/ -1 1 µA IENL(0-15) VEN(0-15) = 0V -1 1 µA IENH(0-15) VEN(0-15) = 5V -1 1 µA IENL(16-31) VEN(16-31) = 0V -1 1 µA IENH(16-31) VEN(16-31) = 5V -1 1 µA IENL(32-47),(MUXMON) VEN(32-47), VEN(MUXMON) = 0V -2 2 µA IENH(32-47),(MUXMON) VEN(32-47), VEN(MUXMON) = 5V -2 2 µA IENL(48-63) VEN(48-63) = 0V -1 1 µA IENH(48-63) VEN(48-63) = 5V -1 1 µA 4 SCD8504 REV A 10/26/01 Plainview NY (516) 694-6700 DC Electrical Performance Characteristics 1/ (con’t) (Tc = -55°C to +125°C, +VEE = +15V, -VEE = -15V, VREF = +5.0V, Unless otherwise specified) Parameter Symbol Positive Input Leakage Current CH0-CH63 Conditions +ISOFFOUTPUT(ALL) +ISOFFCURRENT(ALL) Negative Input Leakage Current CH0-CH63 -ISOFFOUTPUT(ALL) -ISOFFCURRENT(ALL) Output Leakage Current OUTPUTS (pins 3,13, 23 & 33) Mux Monitor (pin 69) Output Leakage Current OUTPUTS (pins 3,13, 23 & 33) Mux Monitor (pin 69) +IDOFFOUTPUT(ALL) +IDOFFCURRENT(ALL) -IDOFFOUTPUT(ALL) -IDOFFCURRENT(ALL) Min Max Units VIN = +10V, VEN = 4V, output and all unused MUX inputs under test = -10V 2/, 3/ -100 +700 nA -100 +700 nA VIN = -10V, VEN = 4V, output and all unused MUX inputs under test = +10V 2/, 3/ -100 +700 nA -100 +700 nA VOUT = +10V, VEN = 4V, output and all unused MUX inputs under test = -10V 3/, 4/ -100 +100 nA -100 +100 nA -100 +100 nA -100 +100 nA +25°C 18.0 23.0 +125°C 18.0 23.5 -55°C 17.5 22.5 V V V +25°C -23.0 -18.0 +125°C -23.5 -18.0 -55°C -22.5 -17.5 V V V VOUT = -10V, VEN = 4V, output and all unused MUX inputs under test = +10V 3/, 4/ VEN = 4V, all unused MUX inputs under test are open. 3/ Input Clamped Voltage CH0 - CH63 +VCLMP(0-63 Input Clamped Voltage CH0 - CH63 -VCLMP(0-63 Switch ON Resistance OUTPUTS (pins 25, 26, 68 & 70) RDS(ON)(0-63)A VIN = +15V, VEN = 0.8V, IOUT = -1mA 2/, 3/, 5/ 500 3000 Ω RDS(ON)(0-63)B VIN = +5V, VEN = 0.8V, IOUT = -1mA 2/, 3/, 5/ 500 3000 Ω RDS(ON)(0-63)C VIN = -5V, VEN = 0.8V, IOUT = +1mA 2/, 3/, 5/ 500 3000 Ω 500 3000 Ω Switch ON Resistance Mux Monitor Only (pin 69) 6/ RDS(ON)(MuxMon) - Notes: 1/ Measure inputs sequentially. Ground all unused inputs of the MUX under test. VA is the applied input voltage to the MUXes’ address lines A(0-5). 2/ VIN is the applied input voltage to the MUXes’ input channel CH0-CH63. 3/ VEN is the applied input voltage to the MUXes’ enable line En(0-15), En(16-31), En(32-47) and En(48-63). 4/ VOUT is the applied input voltage to the MUXes’ output line OUTPUT(1-15), OUTPUT(16-31), OUTPUT(32-47) and OUTPUT(48-63). 5/ Negative current is the current flowing out of each of the MUX pins. Positive current is the current flowing into each MUX pin. 6/ If not tested, shall be guaranteed to the specified limits. Switching Characteristics (Tc = -55°C to +125°C, VDD = +15V, VEE = -15V, VR = +5.0V, Unless otherwise specified) Parameter Switching Test MUX (For Mux Output Monitor, See Note 6/) Aeroflex Circuit Technology Symbol Conditions Min Max Units tONA R L = 10KΩ, CL = 50pF 10 1500 ns tOFFA R L = 10KΩ, CL = 50pF 10 2000 ns tONEN R L = 1KΩ, CL = 50pF 10 1500 ns tOFFEN R L = 1KΩ, CL = 50pF 10 1000 ns 5 SCD8504 REV A 10/26/01 Plainview NY (516) 694-6700 Truth Table (CH0 – CH15) A3 A2 A1 A0 EN(0-15) "ON" CHANNEL 1/ X X X X H NONE L L L L L CH0 L L L H L CH1 L L H L L CH2 L L H H L CH3 L H L L L CH4 L H L H L CH5 L H H L L CH6 L H H H L CH7 H L L L L CH8 H L L H L CH9 H L H L L CH10 H L H H L CH11 H H L L L CH12 H H L H L CH13 H H H L L CH14 H H H H L CH15 1/ Between CH0-15 and OUTPUT (0-15) Truth Table (CH16 – CH31) A3 A2 A1 A0 EN(16-31) "ON" CHANNEL 1/ X X X X H NONE L L L L L CH16 L L L H L CH17 L L H L L CH18 L L H H L CH19 L H L L L CH20 L H L H L CH21 L H H L L CH22 L H H H L CH23 H L L L L CH24 H L L H L CH25 H L H L L CH26 H L H H L CH27 H H L L L CH28 H H L H L CH29 H H H L L CH30 H H H H L CH31 1/ Between CH16-31 and OUTPUT (16-31) Aeroflex Circuit Technology 6 SCD8504 REV A 10/26/01 Plainview NY (516) 694-6700 Truth Table (CH32 – CH47) A3 A2 A1 A0 EN(32-47) "ON" CHANNEL 1/ X X X X H NONE L L L L L CH32 L L L H L CH33 L L H L L CH34 L L H H L CH35 L H L L L CH36 L H L H L CH37 L H H L L CH38 L H H H L CH39 H L L L L CH40 H L L H L CH41 H L H L L CH42 H L H H L CH43 H H L L L CH44 H H L H L CH45 H H H L L CH46 H H H H L CH47 1/ Between CH32-47 and OUTPUT (32-47) Truth Table (CH48 – CH63) A3 A2 A1 A0 EN(47-63) "ON" CHANNEL 1/ X X X X H NONE L L L L L CH48 L L L H L CH49 L L H L L CH50 L L H H L CH51 L H L L L CH52 L H L H L CH53 L H H L L CH54 L H H H L CH55 H L L L L CH56 H L L H L CH57 H L H L L CH58 H L H H L CH59 H H L L L CH60 H H L H L CH61 H H H L L CH62 H H H H L CH63 1/ Between CH48-63 and OUTPUT (48-63) Aeroflex Circuit Technology 7 SCD8504 REV A 10/26/01 Plainview NY (516) 694-6700 Truth Table (Mux Output Monitor) C1 C0 EN(32-47) "ON" CHANNEL X X H NONE L L L Output Channels 0-15 L H L Output Channels 16-31 H L L Output Channels 32-47 H H L Output Channels 48-63 Aeroflex Circuit Technology 8 SCD8504 REV A 10/26/01 Plainview NY (516) 694-6700 4V Address Lines 0.8V 12V MIN OUTPUT 0V tONA Definition of tONA 4V Address Lines 0.8V OUTPUT 0V tOFFA Definition of tOFFA 4V Enable Line 50% 0.8V 90% OUTPUT 10% tONEN 0V tOFFEN Definition of tONEN and tOFFEN Aeroflex Circuit Technology 9 SCD8504 REV A 10/26/01 Plainview NY (516) 694-6700 Lead Numbers & Functions ACT8504 – 96 Leads Ceramic QUAD Flat Pack Pin # Function Pin # Function Pin # Function 1 A2 33 CH11 65 CH49 2 C0 34 CH27 66 CH48 3 A3 35 CH12 67 NC 4 C1 36 CH28 68 Output V(48-63) 5 EN 0-15 37 CH13 69 Mux Output Monitor 6 EN 16-31 38 CH29 70 Output V(32-47) 7 CH0 39 CH14 71 GND 8 CH16 40 CH30 72 GND 9 CH1 41 CH15 73 CH47 10 CH17 42 CH31 74 CH46 11 CH2 43 NC 75 CH45 12 CH18 44 +VCC 76 CH44 13 CH3 45 NC 77 CH43 14 CH19 46 -VEE 78 CH42 15 CH4 47 NC 79 CH41 16 CH20 48 VREF 80 CH40 17 CH5 49 NC 81 CH39 18 CH21 50 CASE GND 82 CH38 19 CH6 51 CH63 83 CH37 20 CH22 52 CH62 84 CH36 21 CH7 53 CH61 85 CH35 22 CH23 54 CH60 86 CH34 23 GND 55 CH59 87 CH33 24 GND 56 CH58 88 CH32 25 Output V(0-15) 57 CH57 89 GND 26 Output V(16-31) 58 CH56 90 GND 27 CH8 59 CH55 91 EN 48-63 28 CH24 60 CH54 92 EN 32-47 29 CH9 61 CH53 93 A0 30 CH25 62 CH52 94 NC 31 CH10 63 CH51 95 A1 32 CH26 64 CH50 96 NC NOTE: It is recommended that all "NC or "no connect pin", be grounded. This eliminates or minimizes any ESD or static buildup. Aeroflex Circuit Technology 10 SCD8504 REV A 10/26/01 Plainview NY (516) 694-6700 CIRCUIT TECHNOLOGY Ordering Information Model Number Screening DESC SMD # Package ACT8504 -S Military Temperature, -55°C to +125°C, Screened to the individual test methods of MIL-STD-883 IAW MIL-PRF-38534 Class K Pending QUAD Flat Pack ACT8504 Military Temperature, -55°C to +125°C, Screened to the individual test methods of MIL-STD-883 IAW MIL-PRF-38534 Class H ACT8504 -7 Commercial Flow, +25°C testing only ACT8504 -T Commercial Flow, -55°C to +125°C testing only ACT8504 -I Commercial Flow, -40°C to +85°C testing only ACT8504 -C Commercial Flow, -0°C to +70°C testing only Flat Package Outline NA 1.150 ±.005 (23 Spaces at .050) Tol Non-Cum 4 Sides Pin 1 Pin 12 .200 MAX Pin 85 Pin 84 Pin 13 .0165 ±.003 1.320 SQ MAX Pin 36 (.400) Pin 61 Pin 60 Pin 37 .006 ±.001 Specifications subject to change without notice Aeroflex Circuit Technology 35 South Service Road Plainview New York 11803 www.aeroflex.com Aeroflex Circuit Technology Note: Outside ceramic tie bars not shown for clarity. Contact factory for details Telephone: (516) 694-6700 FAX: (516) 694-6715 Toll Free Inquiries: (800) THE-1553 E-Mail: [email protected] 11 SCD8504 REV A 10/26/01 Plainview NY (516) 694-6700