JP3433568B2 - Termination circuit - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a termination circuit for switching between a driver and a termination resistor at a high speed when measuring a device with an IC tester. 2. Description of the Related Art FIG. 2 shows a configuration of a conventional termination circuit. 1 of the output impedance Z ₀ driver of FIG. 2, 2 comparators, the inverting circuit 3, the dynamic load 4, 5 relays, 6 resistors, 7 measured device (hereinafter, referred to as DUT.), 8 is the threshold Level power. The dynamic load 4 includes a diode bridge 4a, a switch 4b, a switch 4c, an ILL constant current source 4d, and an ILH constant current source 4e. In FIG. 2, a driver 1 receives voltages VH and VL, outputs one of them by an H / L switching signal, and is turned on / off by an on / off switching signal. The dynamic load 4 has an ILL constant current source 4d connected to an anode common side of a diode bridge 4a via a switch 4b, and a switch 4 connected to a cathode common side.
The ILH constant current source 4e is connected via c. ILL
The threshold levels of the constant current source 4d, the ILH constant current source 4e, and the threshold level power supply 8 are set to appropriate values. The switches 4b and 4 of the dynamic load 4
c is connected to an on / off switching signal via the inverting circuit 3, and when the driver 1 is on, the switch 4b.
4c is turned off, and when the driver 1 is turned off, the switches 4b and 4c are turned on. In FIG. 2, when the DUT 7 is in the output mode, the driver 1 is turned off by an on / off switching signal, and the driver 1 is turned on / off.
The switches 4b and 4c, which receive the inverted signal of the OFF switching signal, are turned on, and the current set in the DUT 7 flows. When the DUT 7 is in the input mode, the driver 1 is turned on by the on / off switching signal, the switches 4b and 4c for inputting the inverted signal of the on / off switching signal are turned off, and the output of the driver 1 is applied to the DUT 7. I do. At this time, since the switches 4b and 4c are off, the dynamic load 4 does not affect the driver 1. When the DUT 7 is connected to the DUT 7 as a terminating resistor when the resistor 6 whose level is equal to the voltage of the threshold level power supply 8 is in the output mode, the ILL constant current source 4d
And the ILH constant current source 4e reduce the current value to 0 by external means (not shown), and connect the relay 5 connected in series to the resistor 6.
Turn on. In the terminating circuit having the configuration shown in FIG. 2, when a terminating resistor whose level is equal to the set value of the threshold level power supply 8 is connected to the DUT 7, the relay 5 switches the input mode between the DUT 7 and the output. Since the DUT 7 cannot be turned on / off at the speed at which the mode is switched to the mode, the resistor 6 is connected to the DUT 7 even when the DUT 7 is in the input mode. There is a problem that the output level shifts by the voltage of current × Z ₀ . The present invention provides a termination circuit that uses a diode bridge of a dynamic load as a switch of a terminating resistor, switches between a driver and a terminating resistor at high speed, and connects the terminating resistor to the DUT only when the DUT is in an output mode. Aim. In order to achieve the above object, the present invention takes a voltage VH / VL as an input, outputs a voltage VH or a voltage VL by an H / L switching signal, and turns on / off. A driver 1 having an output impedance Z ₀ for turning on / off the output by a switching signal, a comparator 2 for comparing and determining the output voltage of the DUT 7, a diode bridge 4a, an arbitrary value, and an anode common side of the diode bridge 4a A dynamic load 4 having an ILL constant current source 4d connected via a switch 4b, and an ILH constant current source 4e set to an arbitrary value and connected to the cathode common side of the diode bridge 4a via a switch 4c; / OFF switching signal is input, inverted and input to the switches 4b and 4c of the dynamic load 4. The circuit 3, a relay 5 connected between a terminal other than the terminal connected to the device under test 7 of the diode bridge 4 a of the dynamic load 4 and the threshold level power supply 8, and a resistor 6 connected in parallel to the relay 5 When the dynamic load 4 is used as a current load circuit, the relay 5 is turned on. When the dynamic load 4 is used as a termination circuit, the ILL constant current source 4d and the ILH constant current source 4e are set to the same current value. Then, the voltage value of the threshold level power supply 8 is set to the terminating voltage, the relay 5 is turned off, and the resistor 6 is connected to the device under test 7 as the terminating resistor. Next, FIG. 1 shows the configuration of a termination circuit according to the present invention. 1 is a driver having an output impedance Z ₀ ,
2 is a comparator, 3 is an inverting circuit, 4 is a dynamic load composed of a diode bridge 4a, switch 4b, switch 4c, ILL constant current source 4d, ILH constant current source 4e, 5 is a relay, 6 is a resistor, 7 is DUT. Next, the operation will be described with reference to FIG.
First, a case where the dynamic load 4 is used as a current load circuit will be described. In FIG. 1, the ILL constant current source 4d and the ILH constant current source 4e of the dynamic load 4 and the threshold level are set to appropriate values, and the relay 5 is turned on. When the DUT 7 is in the output mode, the driver 1 is turned off by an on / off switching signal, and switches 4b and 4c to which an inverted signal of the on / off switching signal is input.
Turn on. Here, when the output voltage of the DUT 7 is lower than the threshold level, the current of the ILL constant current source 4d flows through the DUT, and when the output voltage of the DUT 7 is higher than the threshold level, the current of the ILH constant current source 4e is drawn from the DUT 7. When the DUT 7 is in the input mode, the driver 1 is turned on by an on / off switching signal, and switches 4b and 4c to which an inverted signal of the on / off switching signal is input.
Turn off. As a result, the levels of VH and VL output from the driver 1 by the H / L switching signal are not affected by the dynamic load 4 and are set to the D values according to the set values.
Applied to UT7. Next, a case where the dynamic load 4 is used as a termination circuit will be described. In FIG. 1, the ILL constant current source 4d and the ILH constant current source 4e are appropriately set to the same value, the threshold level is set to the termination voltage, and the relay 5 is turned off. When the DUT 7 is in the output mode, the driver 1 is turned off by the on / off switching signal, and the switch 4b and the switch 4 which receive the inverted signal of the on / off switching signal are input.
Since c is turned on, the current obtained by dividing the potential difference between the output voltage of the DUT 7 and the threshold level by the sum of the value of the resistor 6 and the on-resistance of the diode bridge 4a is the DUT current.
Flows from 7. When the DUT 7 is in the input mode, the driver 1 is turned on by the on / off switching signal, and the switch 4b and the switch 4 for inputting the inverted signal of the on / off switching signal.
Since c is turned off, the diode bridge 4a is turned off, the resistor 6 is disconnected from the DUT 7, and the levels of VH and VL output from the driver 1 by the H / L switching signal are set without being affected by the resistor 6. DUT7 as value
Is applied to Next, the waveforms at various parts in FIGS. 1 and 2 will be described with reference to FIG. First, 50 [Omega output impedance Z ₀ of the driver in FIG. 2, the VH + 3V, 0V to VL, a voltage threshold level power supply 8 + 1.5V, the resistance 6 50 [Omega
When the H / L switching signal waveform is (A) in FIG. 3 and the on / off switching signal waveform is (A) in FIG. 3, the waveform applied to the DUT 7 is (C) in FIG. According to the configuration shown in FIG. 2, when the on / off switching signal is off, the driver 1 is off as shown in FIG. 3 (c).
However, when the on / off switching signal is on, the driver 1 and the resistor 6 are connected at the same time, and even if VH is set to +3 V by the H / L switching signal, the DUT 7 The applied high level of the driver 1 drops to + 2.25V, and the low level of the driver 1 rises to + 0.75V even when VL is set to 0V. Next, in FIG. 1, VH is set to +3 V, and VL is set to 0.
V, the voltage of the threshold level power supply 8 is +1.5 V,
The resistance 6 is 40Ω, the on-resistance of the diode bridge 4a of the dynamic load 4 is 10Ω, the ILL constant current source 4d,
When the ILH constant current source 4e is 50 mA, the H / L switching signal waveform is shown in FIG. 3A, and the on / off switching signal waveform is shown in FIG. 3A, the waveform applied to the DUT 7 is shown in FIG. D). According to the configuration of FIG. 1, when the on / off switching signal is off, the driver 1 is off as shown in FIG.
Is applied and the driver 1 is turned on when the on / off switching signal is on, but the inverted constant of the on / off switching signal causes the ILL constant current source 4d to turn on.
From the switch 4 to the ILH constant current source 4e.
b. Since the switch 4c is turned off, the current stops flowing, the diode bridge 4a is turned off, and the resistor 6 is disconnected from the DUT 7. Therefore, the H / L switching signal causes the DUT 7 to apply + 3V to the high level of the driver 1 as set and 0 V to the low level as set. According to the present invention, since the diode bridge of the dynamic load is used as a switch of the terminating resistor, the terminating resistor is connected to the DUT only when the DUT is in the output mode, and the DUT is in the input mode. In this case, the driver output level as set can be applied to the DUT by disconnecting the terminating resistor.

[Brief description of the drawings] FIG. 1 is a configuration diagram of a termination circuit according to the present invention. FIG. 2 is a configuration diagram of a conventional termination circuit. FIG. 3 is a waveform chart at each point in FIGS. 1 and 2; [Explanation of symbols] 1 Driver 2 Comparator 3 Inversion circuit 4 Dynamic Road 5 Relay 6 Resistance 7 DUT 8 Threshold level power supply

Claims (1)

(57) [Claim 1] A voltage VH · VL is input, and a voltage VH or a voltage VL is output by an H / L switching signal, and the output is turned on / off by an on / off switching signal. A driver (1) having an output impedance Z ₀ , a comparator (2) for comparing the output voltage of the device under test (7), a diode bridge (4a), and an arbitrary value. Switch on anode common side (4b)
And an ILH constant current source (4e) connected via a switch (4c) to the cathode common side of the diode bridge (4a) and connected to the cathode common side of the diode bridge (4a). A dynamic load (4) and an inverting circuit (3) that receives the on / off switching signal as input, inverts it, and inputs it to the switches (4b, 4c) of the dynamic load (4)
And a relay (5) connected between a terminal other than the terminal connected to the device under test (7) of the diode bridge (4a) of the dynamic load (4) and the threshold level power supply (8)
And a resistor (6) connected in parallel with the relay (5) .If the dynamic load (4) is used as a current load circuit, turn on the relay (5) and turn on the dynamic load (4).
Is used as the termination circuit, the ILL constant current source (4d)
And the ILH constant current source (4e) are set to the same current value, the voltage value of the threshold level power supply (8) is set to the termination voltage, the relay (5) is turned off, and a resistance (6 ) Is connected as a terminating resistor.