Claims
- 1. A recording head which records with an ink, comprising:
- a plurality of ink orifices;
- an orifice plate comprising a plurality of electrothermal converters each for generating thermal energy to heat the ink to emit the ink from an associated said ink orifice, said electrothermal convertors being disposed in an array;
- said common substrate including said plurality of electrothermal converter elements and having a surface side and an array of a plurality of NPN transistors for conducting electrical currents to said electrothermal converters, and an array of a plurality of CMOS transistors for controlling operation of said NPN transistors, said substrate comprising:
- a P-type semiconductor common substrate;
- a first and a second N-type semiconductor buried layer each provided on the P-type common substrate;
- a P-type semiconductor buried layer provided on the P-type common substrate;
- an N-type semiconductor epitaxial layer provided on the first and the second N-type semiconductor buried layer and the P-type semiconductor buried layer;
- a P-well of a P-type semiconductor material provided in the N-type semiconductor epitaxial layer;
- an N-well of an N-type semiconductor material provided in the N-type semiconductor epitaxial layer;
- a P-type semiconductor diffusion layer provided in the N-type semiconductor epitaxial layer and including a P-type semiconductor source and a drain region which are provided in the N-type well; and
- an N-type semiconductor diffusion layer provided in the P-type semiconductor diffusion layer and including an N-type semiconductor source and a drain region which are provided in the P-type well,
- wherein the buried layer of the first N-type semiconductor, the N-type semiconductor epitaxial layer, the P-type semiconductor diffusion layer provided in the N-type epitaxial layer, and the N-type semiconductor diffusion layer provided in the P-type semiconductor diffusion layer together comprises one said NPN transistors in said array of the NPN transistors,
- wherein the N-type semiconductor source and drain region provided in the P-type well comprise an NMOS transistor, and the P-type semiconductor source and drain region comprise a PMOS transistor, and the NMOS transistor and the PMOS transistor comprise one said CMOS transistors in said array of the CMOS transistors; and
- wherein the array of the electrothermal converters, the array of the NPN transistors for flowing current into the electrothermal converters, and the array of the CMOS transistors for controlling operation of the NPN transistors are each arranged at the surface side of the common substrate in parallel to one another, and integrally.
- 2. An integrated circuit of a recording head which records with an ink and having an orifice plate having a plurality of ink orifices and connected to a common substrate comprising:
- a plurality of electrothermal converters each for generating thermal energy to heat the ink to emit the ink from an associated said ink orifice, said electrothermal convertors being disposed in an array;
- said common substrate including said plurality of electrothermal converter elements and having a surface side and an array of a plurality of NPN transistors for conducting electrical currents to said electrothermal converters, and an array of a plurality of CMOS transistors for controlling operation of said NPN transistors, said substrate comprising:
- a P-type semiconductor common substrate;
- a first and a second N-type semiconductor buried layer each provided on the P-type common substrate;
- a P-type semiconductor buried layer provided on the P-type common substrate;
- an N-type semiconductor epitaxial layer provided on the first and the second N-type semiconductor buried layer and the P-type semiconductor buried layer;
- a P-well of a P-type semiconductor material provided in the N-type semiconductor epitaxial layer;
- an N-well of an N-type semiconductor material provided in the N-type semiconductor epitaxial layer;
- a P-type semiconductor diffusion layer provided in the N-type semiconductor epitaxial layer and including a P-type semiconductor source and a drain region which are provided in the N-type well; and
- an N-type semiconductor diffusion layer provided in the P-type semiconductor diffusion layer and including an N-type semiconductor source and a drain region which are provided in the P-type well,
- wherein the buried layer of the first N-type semiconductor, the N-type semiconductor epitaxial layer, the P-type semiconductor diffusion layer provided in the N-type epitaxial layer, and the N-type semiconductor diffusion layer provided in the P-type semiconductor diffusion layer together comprises one said NPN transistor in said array of the NPN transistors,
- wherein the N-type semiconductor source and drain region provided in the P-type well comprise an NMOS transistor, and the P-type semiconductor source and drain region comprise a PMOS transistor, and the NMOS transistor and the PMOS transistor comprise one said CMOS transistor in said array of the CMOS transistors; and
- wherein the array of the electrothermal converters, the array of the NPN transistors for flowing current into the electrothermal converters, and the array of the CMOS transistors for controlling operation of the NPN transistors are each arranged at the surface side of the common substrate in parallel to one another, and integrally.
- 3. A recording head which records with an ink, comprising:
- a plurality of ink an orifice plate comprising orifice and connected to a common substrate
- a plurality of electrothermal converters each for generating thermal energy to heat the ink to emit the ink from an associated said ink orifice, said electrothermal convertors being disposed in an array;
- said common substrate including said plurality of electrothermal converter elements and having a surface side and an array of a plurality of NPN transistors for conducting electrical currents to said electrothermal converters, and an array of a plurality of CMOS transistors for controlling operation of said NPN transistors, said substrate comprising:
- a P-type semiconductor common substrate;
- a first and a second N-type semiconductor buried layer each provided on the P-type common substrate;
- a P-type semiconductor buried layer provided on the P-type common substrate;
- an N-type semiconductor epitaxial layer provided on the first and the second N-type semiconductor buried layer and the P-type semiconductor buried layer;
- a P-well of a P-type semiconductor material provided in the N-type semiconductor epitaxial layer;
- an N-well of an N-type semiconductor material provided in the N-type semiconductor epitaxial layer;
- a P-type semiconductor diffusion layer provided in the N-type semiconductor epitaxial layer and including a P-type semiconductor source and a drain region which are provided in the N-type well; and
- an N-type semiconductor diffusion layer provided in the P-type semiconductor diffusion layer and including an N-type semiconductor source and a drain region which are provided in the P-type well,
- wherein the buried layer of the first N-type semiconductor, the N-type semiconductor epitaxial layer, the P-type semiconductor diffusion layer provided in the N-type epitaxial layer, and the N-type semiconductor diffusion layer provided in the P-type semiconductor diffusion layer together comprises one said NPN transistor in said array of the NPN transistors,
- wherein the N-type semiconductor source and drain region provided in the P-type well comprise an NMOS transistor, and the P-type semiconductor source and drain region comprise a PMOS transistor, and the NMOS transistor and the PMOS transistor comprise one said CMOS transistor in said array of the CMOS transistors; and
- wherein the array of the electrothermal converters, the array of the NPN transistors for flowing current into the electrothermal converters, and the array of the CMOS transistors for controlling operation of the NPN transistors are each arranged at the surface side of the common substrate in parallel to one another, and integrally, the array of the CMOS transistors constituting a shift register, a latch circuit, and a logic gate.
- 4. An integrated circuit of a recording head which records with an ink and having an orifice plate having a plurality of ink orifices and connected to a common substrate comprising:
- a plurality of electrothermal converters each for generating thermal energy to heat the ink to emit the ink from an associated said ink orifice, said electrothermal convertors being disposed in an array;
- said common substrate including said plurality of electrothermal converter elements and having a surface side and an array of a plurality of NPN transistors for conducting electrical currents to said electrothermal converters, and an array of a plurality of CMOS transistors for controlling operation of said NPN transistors, said substrate comprising:
- a P-type semiconductor common substrate;
- a first and a second N-type semiconductor buried layer each provided on the P-type common substrate;
- a P-type semiconductor buried layer provided on the P-type common substrate;
- an N-type semiconductor epitaxial layer provided on the first and the second N-type semiconductor buried layer and the P-type semiconductor buried layer;
- a P-well of a P-type semiconductor material provided in the N-type semiconductor epitaxial layer;
- an N-well of an N-type semiconductor material provided in the N-type semiconductor epitaxial layer;
- a P-type semiconductor diffusion layer provided in the N-type semiconductor epitaxial layer and including a P-type semiconductor source and a drain region which are provided in the N-type well; and
- an N-type semiconductor diffusion layer provided in the P-type semiconductor diffusion layer and including an N-type semiconductor source and a drain region which are provided in the P-type well,
- wherein the buried layer of the first N-type semiconductor, the N-type semiconductor epitaxial layer, the P-type semiconductor diffusion layer provided in the N-type epitaxial layer, and the N-type semiconductor diffusion layer provided in the P-type semiconductor diffusion layer together comprises one said NPN transistor in said array of the NPN transistors,
- wherein the N-type semiconductor source and drain region provided in the P-type well comprise an NMOS transistor, and the P-type semiconductor source and drain region comprise a PMOS transistor, and the NMOS transistor and the PMOS transistor comprise one said CMOS transistor in said array of the CMOS transistors; and
- wherein the array of the electrothermal converters, the array of the NPN transistors for flowing current into the electrothermal converters, and the array of the CMOS transistors for controlling operation of the NPN transistors are each arranged at the surface side of the common substrate in parallel to one another, and integrally, the array of the CMOS transistors constituting a shift register, a latch circuit, and a logic gate.
Priority Claims (1)
Number |
Date |
Country |
Kind |
4-348483 |
Dec 1992 |
JPX |
|
Parent Case Info
This application is a continuation, of application Ser. No. 08/170,688 filed Dec. 21, 1993, now abandoned.
US Referenced Citations (14)
Foreign Referenced Citations (4)
Number |
Date |
Country |
54-56847 |
May 1979 |
JPX |
59-123670 |
Jul 1984 |
JPX |
59-138461 |
Aug 1984 |
JPX |
60-71260 |
Apr 1985 |
JPX |
Non-Patent Literature Citations (2)
Entry |
Cole, B. "CAD, CMOS and VLSI Are Changing Analog World" Electronics, Dec. 23, 1985, pp. 35-39. |
Tsubone, K. et al. "A Smart BiCMOS Driver for 400 DPI Thermal Printing Heads" Proceedings of the IEEE 1988 Custom Integrated Circuits Conference, pp. 5.2.1-4. |
Continuations (1)
|
Number |
Date |
Country |
Parent |
170688 |
Dec 1993 |
|