ACT4402 SINGLE TRANSCEIVER FOR MIL-STD-1553/1760 CIRCUIT TECHNOLOGY Features www.aeroflex.com • +5 / ±15 Volt Supply Operation • Low Power Dissipation General Description • Outstanding MIL-STD-1553 performance • Superior High Frequency Line Transient and Input Ripple Rejection • Input and Output TTL Compatible Design • Processed and Screened to MIL-STD-883 Specs • MIL-PRF-38534 Compliant Devices Available • Replacement for Aeroflex’s 3402 & 2402 • Packaging – Hermetic Ceramic Available in a 24pin Ceramic Housing which is 21% smaller than the metal plug-in ■ Non-conductive mounting surface ■ No package glass beads ■ Small size & light weight ■ The Aeroflex Circuit Technology ACT4402 is a next generation monolithic transceiver design which provide full compliance to MIL-STD-1553A/B and 1760 requirements in a small ceramic package with low power consumption. The ACT4402 series performs the front-end analog function of inputting and outputting data through a transformer to the MIL-STD-1553 data bus. Design of this transceiver reflects particular attention to active filter performance. This results in low bit and word error rate with superior waveform purity and minimal zero crossover distortion. Efficient transmitter electrical and thermal design provides low internal power dissipation and heat rise at high as well as low duty cycles. Transmitter TX DATA OUT TX DATA IN DRIVER TX DATA IN ACTIVE FILTER OUTPUT STAGE REFERENCE COMP. ACTIVE FILTER COMP. TX DATA OUT TX INHIBIT IN +5V (VL) +15V (VCC) -15V (V EE) RX DATA OUT GND1 GND2 GND3 RX DATA IN RX DATA IN INPUT AMPLIFIER RX DATA OUT CASE RX STROBE IN Block Diagram (Without Transformer) The Transmitter section accepts bi-phase TTL data at the input and when coupled to the data bus with a 1.4:1 ratio transformer, isolated on the data bus side with two 52.5 Ohm fault isolation resistors, and loaded by two 70 Ohm terminations, the data bus signal is typically 7.5 Volts P-P at point A (See Figure 5). When both DATA and DATA inputs are held low or high, the transmitter output becomes a high impedance and is “removed” from the line. In addition, an overriding “INHIBIT" input eroflex Circuit Technology – Data Bus Modules For The Future © SCD4402 REV A 5/28/99 provides for the removal of the transmitter output from the line. A logic “1” signal applied to the “INHIBIT” takes priority over the condition of the data inputs and disables the transmitter (See Transmitter Logic Waveform, Figure 1). The Transmitter may be safely operated for an indefinite period with the bus (point A) short circuited at 100% duty cycle. Receiver The Receiver section accepts bi-phase differential data at the input and produces two TTL signals at the output. The outputs are DATA and DATA, and represent positive and negative excursions of the input beyond a pre-determined threshold (See Receiver Logic Waveform, Figure 2). The pre-set internal thresholds will detect data bus signals, point A Figure 5, exceeding 1.20 Volts P-P and reject signals less than 0.6 Volts P-P when used with a transformer (See Figure 5 for transformer data and typical connection). A low level at the RX Strobe input inhibits the DATA and DATA outputs. If unused, a 2K pull-up to +5 Volts is recommended. Figure 1 — Transmitter Logic Waveforms Idealized DATA IN DATA IN INHIBIT LINE TO LINE OUTPUT Note: DATA and DATA inputs must be complementary waveforms or 50% duty cycle average, with no delays between them, and must be in the same state during off times (both high or low). Figure 2 — Receiver Logic Waveforms Idealized (ACT4402) LINE TO LINE INPUT STROBE DATA OUT DATA OUT Note overlap Aeroflex Circuit Technology 2 SCD4402 REV A 5/28/99 Plainview NY (516)694-6700 Absolute Maximum Ratings Operating case temperature -55°C to +125°C Storage case temperature -65°C to +150°C Power supply voltage VCC VEE VL -0.3 V to +18 V +0.3 V to-18 V -0.3 V to +7.0 V Logic input voltage -0.3 V to +5.5 V ±40 VP-P Receiver differential input Receiver input voltage (common mode) ±10 V Driver peak output current 300 mA Total package power dissipation over the full operating case temperature rise 2.5 Watts Maximum junction to case temperature 10°C Thermal resistance – junction to case 4°C/W Electrical Characteristics — Driver Section Input Characteristics, TX DATA IN or TX DATA IN (Notes 2 & 3 apply) Parameter Condition "0" Input Current VIN = 0.4 V "1" Input Current VIN = 2.7 V Symbol Typ Max Unit IILD -0.1 -0.2 mA IIHD 1 40 µA 0.7 V "0" Input Voltage VIHD "1" Input Voltage VIHD Min 2.0 V Inhibit Characteristics "0" Input Current "1" Input Current VIN = 0.4 V IILI -0.1 -0.2 VIN=2.7V IIHI 1.0 40 "0" Input Voltage VILI "1" Input Voltage VIHI Delay from TX inhibit, (0→1) to inhibited output Delay from TX inhibit, (1→0) to active output From mid pt inhibit to ±1.2V pt B, See Figure 5 Differential output noise, inhibit mode Differential output impedance (inhibited) Note 1 See Figure 5 0.7 mA µA V V 2.0 tDXOFF 175 225 tDXON 90 150 VNOI 2 10 nS nS mVP-P Point B ZOI 2K Ω Point C ZOI 1K Ω Point A VO 6 7.5 9 Point A tr 100 160 300 nS Point A VOS ± 90 mV peak Point A tDXT 200 nS Output Characteristics Differential output level, See Figure 5 Rise and fall times(10% to 90% at pt A output) See Figure 5 Output offset, Figure 3, 2.5µS after midpoint crossing of the parity bit of the last word of a 660µS message See Figure 5 Delay from 50% point of TX DATA or TX DATA input to zero crossing of differential signal. See Fig 5 Aeroflex Circuit Technology 3 100 VP-P SCD4402 REV A 5/28/99 Plainview NY (516)694-6700 Electrical Characteristics — Receiver Section Parameter Differential Receiver Input Voltage Range (See Figure 5, Point B) Condition Symbol TXFMR 1.4:1 VIDR Common Mode Rejection Ratio (Note 3) CMRR Min Typ Max Unit 40 VP-P 45 dB "1" State – Rx Data or Rx Data Output IOH = -0.4 mA VOH "0" State – Rx Data or Rx Data Output IOI = 4 mA VOL 0.35 0.5 V tDXT 270 400 nS 0.75 1.20 VP-P Delay (average) from Differential Input Zero Crossings to RX DATA and RX DATA Output 50% points Input Threshold Voltage (referred to the bus) 100KHz–1MHz VTH 2.5 0.60 3.7 V Strobe Characteristics (Logic "0" Inhibits Output) "0" Input Current VS = 0.4V IIL -0.1 "1" Input Current VS = 2.7V IIH 1 -0.2 mA +40 µA 0.7 V "0" Input Voltage VIL "1" Input Voltage VIH Strobe Delay (Turn-on or Turn-off) tSD 50 100 ICC IEE IL ICC IEE IL ICC IEE IL ICC IEE IL 0 12 18 1 16 30 45 12 18 90 12 18 180 12 18 50 20 30 100 20 30 200 20 30 V 2.0 nS Power Data Power Supply Currents – Per Channel – See Figure 4 Transmitter Standby 25% duty cycle 50% duty cycle 100% duty cycle mA Power Supply Voltages ±15V Operating Power Supply Voltage Range VCC VEE +5V Operating Power Supply Voltage Range) VL +14.25 +15.00 +15.75 -14.25 -15.00 -15.75 V +4.50 V +5.00 +5.50 Note 1. Power on or off, measured from 75KHz to 1MHz at point A and transformer self impedance of 3KΩ minimum at 1MHz. Note 2: Power Supplies: ±15 Volts ±0.75 V & +5 Volts ±0.5 V, bypassed by 10 µF (Tantalum recommended) Capacitor minimum. All measurements & specifications apply over the temperature range of -55°C to +125°C (case temperature) unless otherwise specified. Note 3: When measured as shown per Figure 5 with ± 10 Volt peak, line to ground, DC to 2MHz Note 4: Typical power is measured with VBUS at point A = 7.5 V P-P Aeroflex Circuit Technology 4 SCD4402 REV A 5/28/99 Plainview NY (516)694-6700 Figure 3 – Transmitter (TX) Output Offset Figure 5 – Typical 1553 Bus Connections LAST BIT Transformer Coupled Stub 70Ω Magnified View ACT4402 OUTPUT OFFSET * OUTPUT OFFSET * 1:1.4 52.5Ω 2:1 TX DATA OUT 3 0 Volts 7 2 A 1 5 T1553-2 TX DATA OUT 2.5 µsec C 52.5Ω RX DATA IN Zoi VCM RX DATA IN *Offset measured at point A in Figure 5 Direct Coupled Stub Figure 4 – Hybrid Power Dissipation vs. Duty Cycle ACT4402 3200 2 POWER DISSIPATION MILLIWATTS 2.97W 0.270 52.5Ω 1.4:1 3 8 TX DATA OUT 3600 B A 2800 2400 Typical Hybrid Input Power 1 4 T1553-2 TX DATA OUT 2000 1.87W 1600 RX DATA IN 52.5Ω Zoi 70Ω RX DATA IN 1200 800 Typical Hybrid Dissipation 400 0 0 Transformer Model use Technitrol Part# 1553-2 or equivalent 10 20 30 40 50 60 70 80 90 100 DUTY CYCLE – PERCENT Note: Vcc= +15V, VEE = -15V, VL= +5V, Transformer ratio 1.4:1, V BUS (point A) at 7.5VP-P. Configuration and Ordering Information ACT Model # / Ordering Part # Case Style DESC Number Rx Standby ACT4402 Ceramic Dip TBA Normally Low ACT4402-I Ceramic Dip TBA Normally High Specifications subject to change without notice. Aeroflex Circuit Technology 5 SCD4402 REV A 5/28/99 Plainview NY (516)694-6700 Figure 6 – Lead Numbers & Functions ACT4402 Aeroflex Circuit Technology Pin # Function 1 TX DATA OUT 2 TX DATA OUT 3 GROUND 4 NC 5 NC 6 NC 7 RX DATA OUT 8 STROBE 9 GROUND 10 RX DATA OUT 11 NC 12 NC 13 V CC 14 NC 15 RX DATA IN 16 RX DATA IN 17 NC 18 CASE 19 VEE 20 +5 V 21 TX INHIBIT 22 TX DATA IN 23 TX DATA IN 24 NC 6 SCD4402 REV A 5/28/99 Plainview NY (516)694-6700 CIRCUIT TECHNOLOGY Ceramic Package Outline 24 13 12 Pin# 1 & ESD Designator 1.270 MAX .200 MAX .620 MAX .150 MIN .030 .010 .050 TYP .019 .015 .610 .590 .012 .008 All dimensions in inches Telephone: (516) 694-6700 FAX: (516) 694-6715 Toll Free Inquiries: (800) THE-1553 E-Mail: [email protected] Aeroflex Circuit Technology 35 South Service Road Plainview New York 11803 www.aeroflex.com Aeroflex Circuit Technology 7 SCD4402 REV A 5/28/99 Plainview NY (516)694-6700