JP2605756B2 - Piezoelectric oscillator - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a piezoelectric oscillator in which a piezoelectric vibrator and an oscillation circuit are housed in the same package.

[Prior Art] The configuration of a conventional piezoelectric oscillator will be described with reference to a plan view of FIG. 3A and a front sectional view of FIG. 3B, taking a crystal oscillator using a crystal oscillator as an example. Fig. 3 (a)
In (b), the semiconductor element 21 and the lead terminal 23 connected to the semiconductor element 21 by wire bonding are molded and sealed with a transfer-molded resin 25.
At this time, the fixed position of the crystal unit 24 is projected in advance by a transfer mold (not shown) and is formed in a concave shape, and the crystal unit 24 is inserted and the crystal unit 24 is connected to the lead terminals 28 and 29 for crystal unit connection. The outer leads 27 of the crystal unit are fixed by soldering 22 or the like, and the remaining recesses are filled with epoxy resin 26 or the like, cured, and sealed.

As shown in FIG. 3 (a), the lead terminals 23 were arranged in parallel with and adjacent to the longitudinal direction of the package at the lead terminals 28 and 29 for crystal resonator connection.

[Problems to be solved by the invention]

However, the conventional technique described above has a problem in that normal oscillation cannot be performed due to the influence of induction noise due to capacitive coupling when the potential of the adjacent lead terminals changes in potential. Had.

Therefore, the present invention is intended to solve such a problem, and an object of the present invention is to prevent an influence on a lead terminal for connecting a crystal oscillator, maintain an accurate reference frequency, and achieve a high accuracy. An object of the present invention is to provide a piezoelectric oscillator.

[Means for solving the problem]

A piezoelectric oscillator having a first lead and a second lead; a semiconductor element having a function of causing the piezoelectric oscillator to oscillate;
The die pad of the lead frame on which the semiconductor element is mounted, the first lead connected to the first lead, and the first piezoelectric vibrator connection lead terminal of the lead frame connected to the semiconductor element, and the second lead. Connected and
A second lead frame connected to the semiconductor element;
A lead terminal for connecting a piezoelectric vibrator, a lead terminal of the lead frame connected to the semiconductor element and having an outer lead portion, a wire connecting the first lead terminal for connecting a piezoelectric vibrator and the semiconductor element, the second A wire connecting the lead element for connecting the piezoelectric vibrator to the semiconductor element, a wire connecting the lead terminal to the semiconductor element, and at least one wire connected to the die pad for connecting the first piezoelectric vibrator; Lead terminal and the second
2 arranged so as to sandwich the lead terminal for piezoelectric vibrator connection
And a lead terminal for shielding of the lead frame of the present invention.

〔Example〕

Embodiments of the piezoelectric oscillator according to the present invention will be described with reference to FIGS. 1A and 1B, taking a quartz oscillator using a quartz oscillator as an example. FIG. 1A is a plan view, and FIG. 1B is a front sectional view. A semiconductor element 1 having a function of oscillating a quartz oscillator is bonded on a die pad 3 of a lead frame made of a metal plate. , And Au wires 2 (wires) and connected to respective lead terminals 7 and 8 (several to several tens of other lead terminals are omitted in the drawing). Here, the lead terminals 10 and 11 are lead terminals for crystal oscillator connection, one end of each is connected to the semiconductor element 1 by wire bonding, and the other end is extended and connected to the lead frame outer frame 9. On the way, it is fixedly connected to the crystal unit 4 having the first lead and the second lead by soldering or the like. Between the lead terminals 10 and 11 for connecting the crystal unit and the other lead terminals 7 and 8, the lead terminals 12 and 13 for shielding extended from the die pad 3 are provided.
Are extended to the lead frame outer frame 9 in parallel with the crystal resonator connecting lead terminals 10 and 11. That is, the lead terminals 10 and 11 for connecting the quartz oscillator around the quartz oscillator 4
Is a configuration sandwiched between the shield lead terminals 12 and 13. The above-described semiconductor element 1, crystal oscillator 4, and respective lead terminals are packaged 6 by transfer molding using an epoxy resin or the like, and are housed in the same resin to form a crystal oscillator.

In addition, not only the method shown in the embodiment but also a terminal having almost no change in potential such as V _DD and V _SS may be used as the lead terminal for shielding. A lead terminal extended to the outer lead 32, which is led out of the package 31 as shown in FIG.
33 or 34 may be used. Further, as shown in FIG. 2B, the shield lead 35 does not have to be led out of the package 31.

Further, the piezoelectric oscillator of the present invention is not limited to the crystal oscillator using the crystal oscillator shown in the embodiment, for example, a piezoelectric oscillator using a resonator such as a lithium tantalate oscillator, a lithium molybdate oscillator, and a ceramic oscillator. Have the same effect.

〔The invention's effect〕

As described above, according to the present invention, since the shielding lead terminal blocks induction noise due to capacitive coupling between the lead terminals for piezoelectric vibrator connection and the lead terminals, abnormal oscillation of the piezoelectric vibrator can be prevented and piezoelectric vibration Since the lead terminals for connector connection can be arranged at the minimum spacing and the lead terminals for shielding have the function of supporting the die pad, stable wire connection is possible and the reliability of the piezoelectric oscillator is improved. effective.

[Brief description of the drawings]

FIG. 1 shows a crystal oscillator as one embodiment of the piezoelectric oscillator of the present invention, wherein (a) is a plan view and (b) is a front sectional view. DESCRIPTION OF SYMBOLS 1 ... Semiconductor element 2 ... Au fine wire 3 ... Lead frame die pad 4 ... Crystal oscillator 6 ... Package by transfer molding 7, 8 ... Lead terminal 9 ... Lead frame outer frame 10, 11 ... Lead terminal for crystal oscillator connection 12, 13 ... Lead terminals for shielding FIGS. 2 (a) and 2 (b) are plan views showing application examples. FIG. 3A is a plan view of a crystal oscillator as one embodiment of a conventional piezoelectric oscillator. (B) is a front sectional view.

Claims (1)

(57) [Claims] A piezoelectric element having a first lead and a second lead; a semiconductor element having a function of oscillating the piezoelectric element; a die pad of a lead frame on which the semiconductor element is mounted; A first piezoelectric vibrator connection lead terminal of the lead frame connected to and connected to the semiconductor element; a second piezoelectric element of the lead frame connected to the second lead and connected to the semiconductor element; A lead terminal for connecting a vibrator, a lead terminal of the lead frame connected to the semiconductor element and having an outer lead portion, a wire connecting the first lead terminal for connecting a piezoelectric vibrator and the semiconductor element, the second piezoelectric element A wire connecting the transducer connecting lead terminal and the semiconductor element, a wire connecting the lead terminal and the semiconductor element,
And at least one is connected to the die pad;
A piezoelectric oscillator, comprising: a lead terminal for connecting a piezoelectric vibrator and a lead terminal for shielding two lead frames arranged so as to sandwich the lead terminal for connecting a piezoelectric vibrator and the lead terminal for connecting a second piezoelectric vibrator.